In the dynamic engineering world, where rapid iteration and efficient production are paramount, new technologies that accelerate design and manufacturing processes hold immense value. Enter Hyper FFF (Fused Filament Fabrication), a cutting-edge way to 3D print developed by Raise3D. Hyper FFF is a groundbreaking 3D printing system engineered for unparalleled efficiency and performance, offering engineering professionals new advantages in prototyping and small-batch production.
Unleashing Speed and Quality:
At the core of Rasie3D’s Hyper FFF lies its ability to achieve unparalleled print speeds, boasting 100% quality and 300% productivity on its website, while maintaining exceptional part quality. By leveraging advanced hardware, sophisticated feedback loops, specialized filaments, and an active vibration cancellation algorithm, Hyper FFF enables engineers to push the boundaries of speed and efficiency in additive manufacturing. With Hyper FFF, design iterations can be completed in record time, leading to faster product development cycles and increased engineering productivity.
Accelerating Design Iterations for Engineers:
For engineers, design iterations are a critical aspect of the development process. Hyper FFF’s remarkable speed allows engineers to rapidly iterate and refine their designs, facilitating quicker testing, validation, and optimization. The accelerated design process empowers engineers to explore multiple design options, evaluate their performance, and make informed decisions faster than ever before. By shortening the design cycle, designers gain a competitive edge, allowing them to bring innovative products to market more quickly and stay ahead of their competitors.
Reduced Print Time for Engineering Applications:
Hyper FFF’s high-speed capabilities significantly reduce print times for engineering applications. Complex prototypes and small-batch production runs that previously required hours or even days to print can now be produced in substantially less time. This accelerated production process enables engineers to meet tight project deadlines, ensuring timely delivery and increased client satisfaction. With Hyper FFF, engineers can optimize their workflows, enhance productivity, and drive innovation forward.
Enhanced Success Rate and Quality Control:
Hyper FFF technology integrates advanced features, like its active vibration cancellation algorithm and optimized filaments, to improve the rate of successful prints and ensure consistent quality in engineering applications. By mitigating vibrations and minimizing printing failures, Hyper FFF delivers reliable results and reduces material waste. Engineers can achieve a higher percentage of successful prints, leading to improved productivity and cost-effectiveness. Hyper FFF empowers engineers with the confidence that their parts will meet the stringent quality standards required in demanding engineering applications.
Shortened Lead Time for Engineering Parts:
Minimizing lead times is crucial in engineering to maintain project schedules and meet client demands. Hyper FFF’s exceptional speed and quality both directly contribute to shortened lead times for individual or even small-batch printed parts. By harnessing the power of Hyper FFF, engineers can manufacture components faster, accelerating the overall production process. This agility ensures timely project completion, minimizing delays, and improving customer satisfaction. With Hyper FFF, engineering firms gain a competitive advantage by delivering high-quality parts in less time.
Embracing In-House Supply for Engineering Applications:
Hyper FFF’s capabilities make it an ideal solution for in-house supply production in the engineering industry. By leveraging Hyper FFF technology, engineering firms can reduce reliance on external suppliers, streamline their supply chains, and gain greater control over production timelines. With the ability to produce parts on demand, engineers can optimize inventory management, reduce costs, and respond swiftly to changing project requirements. Hyper FFF enables engineering professionals to drive innovation and improve the efficiency of their in-house production processes.
Currently, Hyper FFF technology is primarily available for the Pro3 Series printers. The Pro3 Series printers are specifically engineered to leverage the full potential of Hyper FFF, providing exceptional speed and uncompromising quality. Learn more about the Pro3 series on our product page here. Hyper FFF technology is a game-changer for engineers involved in prototyping and small-batch production. By offering unparalleled speed, uncompromising quality, and increased efficiency, Hyper FFF empowers engineering professionals to accelerate design iterations, reduce lead times, and enhance overall productivity.
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As the leading software suite for 3D modeling and design, SOLIDWORKS revolutionizes the way engineers and designers bring their ideas to life. Whether you’re a beginner looking to kickstart your SOLIDWORKS journey or an experienced professional seeking to enhance your skillset, training and certification play a crucial role in mastering this powerful tool. In this blog, we will explore the benefits of SOLIDWORKS training and certification, as well as provide valuable insights and Xpert tips to help you navigate the network of knowledge bases and learning pathways and get the most out of your trusted SOLIDWORKS software.
The Power of SOLIDWORKS Training
SOLIDWORKS training programs offer a structured approach to learning the software’s functionalities, tools, and workflows. These programs cater to individuals at all skill levels, from beginners to advanced users. By enrolling in SOLIDWORKS training, you gain access to expert instructors who guide you through hands-on exercises, real-world projects, and best practices. This immersive learning experience allows you to grasp SOLIDWORKS’ vast capabilities quickly and build a strong foundation for continued growth.
Benefits of SOLIDWORKS Certification
Earning a SOLIDWORKS certification validates your expertise and proficiency in using the software. It demonstrates your commitment to professional development and sets you apart in a competitive job market.
Industry recognition: Employers recognize SOLIDWORKS certifications as a mark of excellence and expertise, giving you a competitive edge when seeking job opportunities or advancements in your career.
Enhanced skills and efficiency: The certification process challenges you to master various aspects of SOLIDWORKS, expanding your knowledge and proficiency. This newfound expertise enables you to work faster and more efficiently, saving time, increasing productivity, and streamlining your design routines.
Network and community: Becoming certified connects you with a vibrant community of SOLIDWORKS professionals, providing opportunities for networking, knowledge sharing, and collaboration.
Navigating the Certification Path
SOLIDWORKS certifications are offered at different levels, allowing individuals to progress from entry-level to advanced designations. Understanding the certification path is essential for setting clear goals and planning your learning journey.
As a Certified SOLIDWORKS Training Center, SolidXperts offers training for all topics the SOLIDWORKS certifications cover, from SOLIDWORKS general training and performance optimization to tool-specific lessons. Plus, our courses discuss more than just the CAD training you’ll need, but also include information about exam prerequisites, formats, and tips for success at each level. Reach out to our certified trainers today and we’ll help you create the learning pathway that best suits how you design.
Certified SOLIDWORKS Associate (CSWA):
The Certified SOLIDWORKS Associate (CSWA) certification serves as the entry-level credential for SOLIDWORKS users. It validates your fundamental understanding of SOLIDWORKS tools and functionality. This exam option is a great place for graduating students to start their 3D certification journey. To prepare for the CSWA exam, you can follow these steps:
1 – Familiarize yourself with SOLIDWORKS: Begin by getting acquainted with the SOLIDWORKS user interface, basic sketching tools, part modeling techniques, assemblies, and drawings. This foundational knowledge forms the core of the CSWA exam.
2 – Enroll in SOLIDWORKS training courses: Check out our full catalog of training to find the right courses that will empower you to master SOLIDWORKS.
3 – Practice with sample exams: SOLIDWORKS provides sample exams that closely mimic the format and difficulty level of the CSWA certification. Practice these exams to familiarize yourself with the question types and identify areas where you need improvement.
Certified SOLIDWORKS Professional (CSWP):
The Certified SOLIDWORKS Professional (CSWP) certification is the next level after CSWA, focusing on more advanced modeling techniques, assemblies, and drawing functionalities.
1 – Gain practical experience: Build your proficiency by working on real-world projects that require complex part modeling, assembly design, and drawing creation. Practical experience enhances your understanding of SOLIDWORKS and prepares you for the challenges faced in the CSWP exam. This will also give you the opportunity to put your CSWA to work!
2 – Advanced training courses: Advanced SOLIDWORKS training courses cover the topics tested in the CSWP exam. These courses delve into advanced sketching techniques, surfacing, sheet metal design, and complex assemblies.
3 – Practice makes perfect: SOLIDWORKS provides sample exams and tutorials specifically designed for CSWP preparation. Use these resources to practice and reinforce your knowledge of advanced modeling techniques and assemblies.
It’s worth noting, though we recommend taking the CSWA before the CSWP, it is not a prerequisite. However, you must take the CSWP before taking the CSWE.
Certified SOLIDWORKS Advanced Professional (CSWPA)
In addition to the core certifications, SOLIDWORKS offers a range of specialty certifications that allow you to showcase your expertise in specific areas. These specialty certifications are designed to validate your proficiency in specialized skills, expanding your knowledge and making you a sought-after professional in your chosen field. Here are a few examples:
Sheet Metal (CSWPA-SM)
The CSWPA-SM exam assesses your proficiency in creating complex sheet metal designs using SOLIDWORKS. This exam tests your ability to create and modify sheet metal parts, apply bend allowances and reliefs, generate flat patterns, and create detailed drawings for manufacturing.
Mold Making (CSWPA-MM)
The CSWPA-MM exam assesses your proficiency in mold design using SOLIDWORKS. This exam tests your knowledge and skills in creating core and cavity components, applying draft angles, designing parting lines, and generating mold bases and inserts.
Surfacing (CSWPA-SU)
The CSWPA-SU exam evaluates your proficiency in advanced surfacing techniques using SOLIDWORKS. This exam tests your skills in creating complex surface geometry, utilizing surfacing tools, and applying advanced surfacing features.
Drawing Tools (CSWPA-DT)
The CSWPA-DT exam assesses your proficiency in utilizing SOLIDWORKS drawing tools to create detailed engineering drawings. This exam evaluates your skills in creating and modifying drawing views, applying annotations, generating bills of materials (BOM), and utilizing advanced drawing tools.
Weldments (CSWPA-WD)
The CSWPA-WD exam evaluates your proficiency in using SOLIDWORKS Weldments to design and document welded structures. This exam tests your skills in creating and modifying structural members, generating cut lists, and creating detailed weldment drawings.
…and more!
Certified SOLIDWORKS Expert (CSWE):
The Certified SOLIDWORKS Expert (CSWE) certification is the highest level of achievement in SOLIDWORKS. It validates your comprehensive knowledge and ability to solve complex design challenges. In order to qualify to take the CSWE you must pass the CSWP as well as 4 additional CSWPA certifications. The CSWE exam covers a wide range of advanced topics, so be prepared with:
1 – Extensive hands-on experience: Accumulate extensive hands-on experience by working on complex projects and pushing the limits of SOLIDWORKS. Engage in challenging design scenarios that require advanced modeling, surfacing, and assembly techniques.
2 – Advanced training courses and workshops: Seek advanced training courses and workshops that focus on the topics covered in the CSWE exam. These courses often cover advanced surfacing, advanced assembly techniques, and simulation.
3 – Independent study and research: Conduct independent study and research to explore advanced SOLIDWORKS functionalities beyond what is covered in training courses. Experiment with advanced surfacing, advanced assembly configurations, and optimization techniques.
Conclusion
SOLIDWORKS certification exams can be challenging, but with the right preparation, you can increase your chances of success. SOLIDWORKS training and certifications are essential tools for unlocking your full potential as a designer or engineer. The knowledge and expertise gained through these programs can propel your career to new heights, opening doors to exciting opportunities and fostering limitless innovation. Whether you’re a recent graduate, an aspiring designer, or an experienced professional, the journey to mastering SOLIDWORKS begins with training and certification.
To explore the full SOLIDWORKS certification program, click here.
For more information about our training programs, custom training options, or how you can start your journey to SOLIDWORKS certification, contact the Xperts.
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At the forefront of CAD innovation and engineering design quality of life, the 3DEXPERIENCE platform is constantly looking for ways to improve how the world’s engineers and product designers work. From improving their options for browser-based 3D modeling to adding new, more accessible tools and collaboration opportunities, the 3DEXPERIENCE platform adds new features as often as the world starts a new design! In this blog, we’ll discuss some of the most recent upgrades, improvements, and additions to the browser-based roles on the 3DEXPERIENCE platform to see how both designers and non-CAD users, worldwide, can benefit and enjoy a more accessible, more fluid daily design and product development routine.
Without further ado, let’s dive into the R2023x FD02 release.
1 . User Experience Quality-of-Life Upgrades
New Default Dashboard – Now, you can access all your roles in one convenient location – the SOLIDWORKS Creator Home dashboard. This dashboard is designed to help keep you organized and reduce screen clutter, allowing you to quickly access your 3DEXPERIENCE roles.
Get easy access to all your roles in one place.
System Status Menu – Enhance system performance and accurately track issues with the new System Status menu. This menu allows you to easily check the status of your network and server connections, so you can quickly identify any underlying problems that may be impacting performance.
Ensure a smooth connection and a successful design experience before you start any project.
Design in the Context of HomeByMe in 3D Creator – You can now take advantage of 3D Creator’s parametric capabilities and test for fit, function, and aesthetics when bringing your HomeByMe designs into the environment. HomeByMe, a free home design and furnishings solution by Dassault Systèmes, allows you to measure, reference, and mate to geometry in one place, ensuring your design fits your specifications. Easily share your 3D Creator models back to the HomeByMe community.
Design in a more realistic, life-like setting, and take advantage of parametric capabilities.
Selective Save – With the Selective Save feature, you can improve your collaborative workflow by saving parts of an assembly without interruption. You can quickly identify which components are locked, deselect them, and save only the components that you are currently working on. This eliminates the need to ask someone to unlock a file.
Work more efficiently and without interruption.
Lock Status and Unlock Requests – With the latest tools, you can quickly and easily identify which elements are locked and by whom, and then instantly send unlock requests directly to the right people in real-time. No more waiting for someone to unlock a file.
Collaborate seamlessly, knowing exactly which components are blocked and who to contact for immediate access.
Sketch Pattern – The Sketch Pattern command now offers increased control and flexibility when creating patterns with the new Skip Instance checkbox. This is a helpful tool when you don’t want certain instances of the pattern to be created in overlapping or whole areas. With the Skip Instance feature, you can quickly add or remove instances from your pattern without disrupting the overall pattern.
It’s now much easier to create the exact pattern you need for your design.
Hide/Show Options in Measured Command – The Measure command now offers added control and time-saving features with the Hide/Show Options. These options allow you to quickly capture measurements related to internal and hidden components that are located behind other geometry, so you don’t have to leave the Measure command to get the measurements you need.
With the Hide/Show Options, you can save time and have more control over your measurements.
Volumetric Section View – By using Volumetric Section View, you can create a bounding box to divide your design into sections, allowing you to view the internal components without being distracted by additional elements. With this view, you can focus solely on the task at hand, giving you the ability to gain a better understanding of your design.
Easily cut through the clutter and gain clarity in your designs.
2 . Manufacturing Definitions
Section Views – With a new 3D view type, you can easily create professional representations of internal features and dimensions for downstream communication. This makes it easier to define manufacturing information for internal component geometry.
Capture design intent and internal details of complex components more clearly.
Bent Leader Option – You can now customize how you display your drawings with the new bent leader option in Manufacturing Definition Creator. This feature allows you to create annotations with bent leaders that meet ASME and ISO standards for radius and diameter dimensions, giving you more control over the look of your drawings.
Be confident that all your drawings are compliant with industry requirements.
STEP A242 Export – You can now use 3DPlay to share, view, and mark up STEP A242 files for downstream communication and manufacturing. This format provides the industry-supported model-based definition (MBD) workflows.
Export 3D annotations more efficiently.
3 . Freeform Design
Align Vertices Command – The Align Vertices command has been updated. Now, when using shift-select, the first two entities you select will define the alignment axis for all the remaining points.
Specify vertices for alignment more easily.
Bend and Flex Tool – When using the Flex tool, the robot manipulator and range manipulator are now offset from one another, making them easier to use. Additionally, the Bend tool now offers a Limit Bend option that allows you to ensure the deformation of a specific design region without bending the region beyond the manipulator. With this new option, you can easily control the exact shape and form of your design.
Make your design intent clearer and gain increased control.
Improved Copy/Paste – With improved Copy and Paste, placing a copied instance of a subdivision (Sub-D) body is easier than ever. When you Copy and Paste, a preview of the new instance appears in yellow, allowing you to accurately locate it in the desired position. You also have the option to scale and flip the instance.
Create complex Sub-D geometry faster and more easily.
Reflect Command – Creating a mirrored instance of an existing subdivision body is now even easier. Simply duplicate the existing body and use the mirror tool to flip the object along the desired axis. This will create a mirrored instance of the original body which can be modified independently of the original.
Easily create a mirrored instance of a subdivision body.
Crease Command – Save time with the new and improved Crease Command! When you apply a crease, the affected entities will remain selected, allowing for further modifications without having to reselect them.
Save clicks and streamline crease creation.
4 . Sheet Metal Design
Enhanced Workflows and Mini Dialogs for Custom Walls – The Wall on Edge feature includes enhanced workflows and mini-dialogs that provide quick access to the sketch option and help to streamline the creation of custom walls and flanges. The workflow is shorter than before and the mini-dialogs are user-friendly, making it easier to use on smaller devices such as mobile phones and tablets.
Create custom non-rectangular walls and flanges quickly and easily with the new Wall on Edge feature.
5 . Structure Design
Machine Learning for End Cap and Plate Placement – With the Design Assistant Selection capabilities, you will get suggestions for multiple end cap or plate placements. Simply click on one of the endcaps and the Design Assistant will automatically populate a suggestion for the other endcaps or plates and propagate them for you.
Reduce time spent on manual work by quickly placing multiple end caps or plates.
Find out more:
Whether it’s communicating with colleagues or outside stakeholders, trying to add tools to a design more efficiently, encouraging experimentation with easy-to-use features, or just making your everyday designing more enjoyable, the 3DEXPEREINCE platform’s browser-based roles seek to make your daily design routines easier and more fluid, so you can focus on innovation.
At SolidXperts, we pride ourselves on our proven ability to help our clients optimize their design and manufacturing processes through the use of modern software solutions. As a trusted SOLIDWORKS, 3DEXPERIENCE, and 3D design service provider with more than 25 years of experience, our Xpert teams enable our clients to design products faster and more efficiently, empowering them to stay competitive in ever-evolving industries.
Recently, we’ve had the opportunity to work with Beaubois, a client in the architectural millwork industry, who was looking to transition from Solid Edge to SOLIDWORKS with the SWOOD add-on. In this post, we’ll share how we helped this client achieve their goals and improve their operations.
Step 1: Complete Process Diagnosis
Woodworking and architecture projects require a great deal of precision and expertise to create beautiful and long-lasting designs. To accomplish this, it’s important to use the right tools and software.
As a Quebec-based company that specializes in custom architectural woodwork, Beaubois aims to push boundaries and challenge the expected norms of the woodworking industry without sacrificing high standards and quality designs. In order to keep up with their unique customer requests and an increasingly intricate digital design landscape, they needed to take their design processes to a higher level of CAD and CNC machine communication.
To empower Beaubois’s 3D creative journey and support their long-term goals, our first step was to conduct a comprehensive diagnosis of our client’s existing design and manufacturing processes. We wanted to identify any inefficiencies or areas where improvements could be made. This process included an in-depth analysis of their CAD data, production workflows, and automation processes.
Step 2: Pilot Project Implementation
After the diagnosis phase, we moved to the pilot project implementation stage. We worked closely with a small team of Beaubois employees to test the SOLIDWORKS software and the SWOOD add-on in a real-world scenario. The pilot project allowed us to identify any potential issues and make necessary adjustments before a full-scale deployment.
Moving from Solid Edge to SOLIDWORKS can be an intimidating prospect. Even with a perfect solution, it can be difficult to onboard a full team quickly and cost-effectively while avoiding expensive downtime. For Beaubois, SOLIDWORKS offers superior CAD collaboration capabilities and a more intuitive user interface, along with improved 2D and 3D functionality.
Our team of Xperts helped onboard their design team to the SWOOD add-in, which provides a library of woodworking components, tools for designing 3D assemblies, the ability to create 3D renderings and presentations, and much more that allowed them to streamline their processes. The add-in also includes tools for estimating material costs and calculating production times, helping companies better manage their projects. With the SWOOD add-in, Beaubois can now design high-quality woodwork projects faster and more easily. Furthermore, SOLIDWORKS and SWOOD empower them to generate accurate and detailed toolpaths for their CNC machines.
Step 3: Global Deployment and Change Management
Following the successful pilot project, we helped the client roll out SOLIDWORKS with SWOOD across their entire organization. We provided extensive training and support to ensure a smooth transition and minimize any potential disruption to their operations. We also assisted with change management to help the client’s employees adapt to the new software and processes.
As Beaubois transitioned to SOLIDWORKS and SWOOD, the investment in training and infrastructure was essential to ensure a successful transition and maximize the rewards of better design and fabrication processes.
Step 4: Improved Results
Our work with this client resulted in several key improvements to their design and manufacturing processes. With SOLIDWORKS and SWOOD, they were able to optimize their CAD data for use with their factory robots, leading to faster and more efficient production. Additionally, the SWOOD add-on allowed them to automate many of their manufacturing processes, further improving efficiency and reducing errors.
Thanks to SolidXperts’ help, Beaubois has been able to transition to SWOOD for design and fabrication, resulting in enhanced communication and collaboration among staff, customers, and suppliers. This streamlining of the design process has saved Beaubois both time and money, while also allowing them to create products of the highest quality that exceed customer expectations. SolidXperts’ guidance and support during the transition enabled Beaubois to significantly increase their output and cost efficiency, while simultaneously creating more productive, more easily managed workflows.
Conclusion
We’re proud of the work we did with this client, and we believe it can serve as an inspiration to other businesses looking to improve their operations. To highlight our work, we created a video testimonial featuring the client discussing their experience working with us. In the video, they describe how our team helped them achieve their goals and improve their processes. Check it out!
We are passionate about helping our clients achieve their goals through the use of modern software solutions. Our work with this client in the architectural millwork industry is a great example of how we can help businesses improve their operations and achieve success. If you’re interested in learning more about our services or how we can help you optimize your processes, please contact us today.
Montreal, Quebec – SolidXperts, a leading provider of Dassault Systèmes SOLIDWORKS and 3DEXPERIENCE software solutions, as well as additive manufacturing technology, has announced its acquisition of Instadesign Group’s CAD division, a company in the same industry, as well as a strategic partnership with their Technical Service Division. The acquisition and partnership are expected to significantly expand SolidXperts’ customer base and enhance its product and service offerings.
“The addition of this division to our family of companies is an exciting step forward for our organization,” said Alex Habrich, Founder and CEO of SolidXperts. “Not only does it enable us to better serve our existing customers, but via our partnership with Instadesign Group’s Technical Division it also brings on board a team of talented professionals who share our commitment to excellence in the Engineering field. We are also proud to be the 5th largest SOLIDWORKS reseller in North America.”
SolidXperts has a long-standing reputation for delivering innovative and high-quality products and services that exceed customer expectations. With the acquisition of Instadesign’s CAD Division and association with its Technical Service division the company will be able to leverage its expertise and resources to drive even greater success in the marketplace.
“We are confident that this acquisition will enable us to achieve even greater growth and success in the years ahead,” said Alex Habrich. “We are excited to welcome Instadesign Group’s CAD Division to the SolidXperts family and look forward to working together to deliver exceptional value to our customers.”
The acquisition is expected to close on March 31st, 2023, pending regulatory approval. Financial details of the transaction were not disclosed.
For more information about SolidXperts and its products/services, please visit www.SolidXperts.com
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Montreal, Québec — SolidXperts Inc., a leading 3D CAD and additive manufacturing solutions provider in Quebec, Ontario, and New England, is pleased to announce the launch of Xcloud, their new suite of cloud data management services and product offerings. SolidXperts has been providing premium CAD and 3D printing solutions for over 25 years, and as customers continue to search for increasingly more powerful and accessible solutions to optimize their operations and gain a competitive edge, this new combination of technology and expertise will digitally transform their businesses, drive industry insights, and streamline product design cycles.
Curated specifically for the product design and manufacturing industry, Xcloud by SolidXperts cloud services eliminate the need to install and maintain on-site hardware and software, so businesses can manage their CAD systems, files, and 3D printing more efficiently from any device, anywhere in the world. On the cloud, customers can work confidently with comprehensive security measures that protect data and ensure privacy. This product expansion offers customers two distinct services, PDM on the Cloud and SOLIDWORKS on the Cloud, and includes access-controlled cloud storage, version management, and secure file sharing, as well as automated backups and updates, empowering customers to easily manage their data online.
“Today, more than ever, businesses are looking for ways to digitally transform and eliminate the typical IT resource constraints and administrative burdens that hinder design productivity. It’s great to see partners like SolidXperts finding unique ways to offer clients solutions that add value to their existing SOLIDWORKS products and move them to the cloud on their way to a complete digital transformation,” said Chad Garrish, Founder of EpiGrid.
Xcloud by SolidXperts is the result of a new partnership with EpiGrid, the only certified SOLIDWORKS solution partner for managed cloud-hosted solutions with ten years of experience hosting SOLIDWORKS PDM customers. This new partnership gives SolidXperts customers access to globally available secure public and private cloud management options that integrate seamlessly into existing SOLIDWORKS toolkits. With companies operating on larger scales, more employees using personal devices for work, and a permanent spike in remote work, trusted and secure access to project data has never been more important. EpiGrid provides a secure Global Hybrid Cloud that enables users to store, share, and collaborate on their SOLIDWORKS data. Paired with decades of SOLIDWORKS expertise, a wide range of 3D printing solutions, and a team of certified Xperts, Xcloud by SolidXperts empowers engineering teams to take full advantage of their product design toolkit and optimize their entire product development cycle.
About EpiGrid: EpiGrid is an engineering technology solutions provider dedicated to delivering comprehensive managed cloud solutions to the Engineering and Manufacturing sectors. Their expertise lies in the deployment, optimization, and management of global cloud infrastructure technologies with the flexibility to provide hosted and cloud-enabled engineering solutions. EpiGrid provides innovative solutions that maximize efficiency and optimize performance.
About SolidXperts: For over 25 years, SolidXperts has been the leading provider of SOLIDWORKS solutions in Québec. They offer a comprehensive range of products, services, and expertise, including software and hardware products, training and support, consulting, and technical services. Their goal is to ensure the success of all customers by providing the highest quality SOLIDWORKS products and services available.
The Nexa3D XiP 3D resin printer is revolutionizing the additive manufacturing industry with ground-breaking speed and precision. Built on Lubricant Sublayer Photo-curing (LSPc) Technology, users can print at speeds of up to 18 cm per hour! These high printing speeds, superior build quality, and intuitive user interface have positioned it as a great option for both hobbyists and professionals alike.
In this blog post, we will discuss the benefits, disadvantages, and our honest Xpert first impressions of the Nexa3D XiP.
The Benefits
First, let’s take a look at the things we love about this 3D printer. The Nexa3D XiP is an attractive option for both prototyping and end-use prints with a user-friendly interface and automated maintenance features, so anyone can get started quickly and produce great results. One of the most notable benefits is the printer’s high-speed printing capabilities. The printer can produce parts in a fraction of the time of competing models, making it ideal for those who need to produce parts quickly.
The XiP’s speed and precision make it ideal for prototyping and short-run production, as well as complex and intricate designs. It can produce parts with accuracy comparable to injection molding, and its open material platform makes it uniquely compatible with a wide range of materials and can even print in a variety of colors. Plus, it’s incredibly energy efficient, helping to reduce costs and environmental impact.
In addition to printing quickly, the XiP is incredibly easy to set up and use. Plug & Play features make it easy to install and operate without specialized training and its removable pieces are easy to adjust or replace, including its resin tray membrane which you can buy separately without needing to purchase an entirely new print tray kit. The printer also features a user-friendly interface and easily navigated print software, allowing users to effortlessly set up and monitor their prints.
Post-processing with the XiP is a breeze. The 2-in-1 Wash+Cure lets users move from finished print to wash to cure without requiring the space or manual maintenance of comparable printers with separate washing and curing post-processing machines. Simply place your print in the wash basket after removing it from the print platform or submerge the entire print and platform with the specialized wash basket attachment to minimize contact with the unprocessed part. Select your timing and hit ‘Start”. Then, replace the wash bucket with the curing platform, remove any remaining supports, set your print on down on the rotating platform, and turn the machine back on to cure.
Finally, and arguably most importantly, the printer has a high-quality build, making it a durable and reliable machine that you can count on for accurate, repeatable prints over its entire extended lifetime.
The Disadvantages
Despite its many benefits, the Nexa3D XiP does have some drawbacks. For example, the printer’s user interface is somewhat limited, making it easier to navigate for beginners and more accessible for prints that don’t require complicated settings, but less suitable for those who need more advanced features or customizable support structures.
Also, it’s normally not a good idea to try to cure thick pieces with traditional SLA printing, and even with advanced LSPc technology thicker parts may not cure properly on the inside. This is a common trade-off with laser printing and slowing down your print speeds may lead to better results with thicker parts, but we recommend keeping your prints as lean as structurally possible. Furthermore, resin printing is notorious for its lingering smell, which can make these printers questionable to operate in closed spaces. We recommend setting it up in a well-ventilated area with windows.
Finally, as typically seen with SLA printing, clean-up is sticky, time-consuming, and boring. Parts must be moved manually from the printer to the Wash+Cure, supports must be removed by hand, and resin maintenance can be awkward and potentially messy if you’re not careful. Unfortunately, the printer doesn’t automatically keep track of resin usage. Our Xperts recommend wearing gloves whenever handling uncured prints and using extra care when refilling the resin basin, swapping resins in the machine, or storing unused resin.
Our First Impressions
The Nexa3D XiP has made a hugely positive impression on our team of Xperts. Its industry-leading high print speeds and high-quality build make it a strong option for those who need to produce parts quickly with reliable repeatability. Additionally, the printer’s user-friendly interface and intuitive design make it easy to learn and operate with minimal required maintenance. Overall, the Nexa3D XiP printer is a great choice for anyone who wants to quickly and accurately produce high-quality 3D prints.
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Product development managers, directors, and vice presidents constantly make sure their teams are coordinated, and the products they design are cost-effectively manufactured, marketable, dependable, ergonomic, and useful.
From initial design, all the way through to final manufacture, even a streamlined traditional product development process generates enormous volumes of data, frequently from several disconnected applications. Thousands of files, including parts, assemblies, drawing files, and files for simulation and manufacturing (OH MY!) may be found as integral pieces of a mechanical design project. Additionally, legacy files must be kept organized and accessible for efficient reuse. No one likes duplicating work. The management of everyday communication files, including spreadsheets, PDFs, and emails (among countless others), is also crucial, now more so than ever before.
How can this data be promptly and efficiently captured, managed, and used for your company’s advantage?
For those in charge of product development, finding and keeping the proper personnel has grown to be a constant worry. Nowadays, location is rarely a deciding factor in hiring, so allowing flexibility in terms of location has become critical as companies look for new ways to attract, retain, and motivate workers. The top talent seeks employment with cutting-edge businesses. Additionally, staff members who are given the freedom to reach their full potential and continually advance their abilities are happier and less inclined to walk away from a position.
The comprehensive corporate innovation portfolio, 3DEXPERIENCE Works, links all your people, data, and apps in a single environment, allowing all important stakeholders to take part in the creation of new products. It makes use of the 3DEXPERIENCE platform on the cloud and combines the strength of SOLIDWORKS with other top-tier technologies from Dassault Systèmes.
How can 3DEXPERIENCE Works help product development leaders as we enter the new generation of product design and development?
Makes Decisions More Efficient
The communication process between design/engineering teams and non-technical stakeholders, who frequently occupy executive-level decision-making positions, has always been difficult to maintain. To provide critical input and provide the go-ahead for initiatives, these stakeholders must fully comprehend product concepts. Without a clear grasp of engineering’s goal, tensions can easily rise, sometimes leading to communication breakdowns and painfully delaying the decision-making or even final manufacturing and market delivery processes.
Using the 3DEXPERIENCE platform’s cloud-based collaboration capabilities gives non-engineering decision-makers a clear, concise, and curated window into that design process. Team members can explore models on the cloud-based platform at their own pace, regardless of their level of technical expertise. It enables people to take part in real-time reviews without needing to have the necessary 3D CAD skills.
Collaboration and productivity on the front end soar when non-technical owners, executives, and managers are given early access to the design review process. Decisions are made more quickly, with wider spread agreement. It is simpler to express worries, find problems, and provide remedies. Potential problems are identified early in the procedure, preventing delays later on in the process.
*Permission-based access may be granted to suppliers and clients so they can contribute to the security product record.
Manages Data More Efficiently
A few of the everyday issues encountered by product development executives and their teams include knowing who is working on what projects, when each phase of a project is due, why delays occur, and how to handle all the data.
The portfolio from 3DEXPERIENCE Works was created specifically to control the product development life cycle. Teams may offer their departmental knowledge at key points throughout the process thanks to simple-to-use applications. Everyone may easily obtain status updates via a dashboard view since the tools are interconnected.
This is fantastic news for SOLIDWORKS customers and other small-to-medium sized enterprises who lack the resources to set up a sophisticated data management system. Say goodbye to data extractions, screenshots, emails, Excel spreadsheets, and a jumble of other departmental tools thanks to 3DEXPERIENCE Works solutions. To reduce mistakes and communication blunders, the platform automatically maintains an audit trail of both engineering and communications data.
Data management for product development is increasingly favored using cloud-based PLM technologies. Smaller businesses can scale as their firm expands and invest only in the technologies they actually need. At its foundation, 3DEXPERIENCE Works has just one product definition.
*Depending on their role and access privileges, everybody within the firm may see, change, and contribute to one continuous process.
Ensures Collaboration
Small-to-medium sized firms still frequently use phone calls, emails, and even, occasionally, faxes as their main methods of client communication. However, manufacturing utilizing the 3DEXPERIENCE platform is automatically in-sync with product development. Regardless of whether things are made in-house or by other parties.
Lack of coordination can reduce production and raise the cost of the final product. With the aid of the tools provided by a cloud-based platform, you can establish project Communities where you can invite everyone involved, including clients and suppliers, to work more securely and efficiently.
Upstream issues that might be costly are avoided by using real-time design for manufacturing input from the shop floor or suppliers. Additionally, the platform records every conversation, making it possible to backtrack activities.
*Late-stage product difficulties are eliminated when designers and engineers are involved in manufacturing early in the process.
Everyone Moves in Unison
Utilizing each member of your team’s area of expertise is made simpler by the design-through-manufacturing solutions portfolio offered by 3DEXPERIENCE Works. On the platform, basic data management is already integrated, and if your business develops and your needs change, you can add or change your features and roles. Additionally, you have access to technologies created specifically for product development that are accessible to all important stakeholders, including executives, design engineers, shop floor workers, and suppliers.
For more information about the 3DEXPERIENCE Works portfolio, or to see how you would benefit from a secure and easy shift to cloud-based PDM or PLM workflows, don’t hesitate to reach out to our Xperts.
Any questions? Need help? Ask one of our experts.
Whether you’re ready to get started or just have a few more questions, you can contact us toll-free:
SolidXperts, a full-service CAD and 3D printing solution provider, to offer full Nexa3D range of ultrafast, industrial resin 3D printers.
Nexa3D resin printers deliver high print speeds without compromising accuracy or material stability to the dental, engineering, and product design industries.
Quebec, CA, December 15, 2022 – SolidXperts is excited to announce a new partnership with Nexa3D®, a leading provider of ultrafast photopolymer 3D printers that offer high print speeds, smooth surface finishes, and reliable repeatability, all on an open material platform. SolidXperts will officially offer Nexa3D’s full range of resin highspeed 3D printers, including the XiP desktop printer and industrial NXE Pro series printers, to designers, engineers, and businesses across Quebec, Ontario, and New England U.S.A.
“My dad always said to me ‘Time is money,’ and that was the first thing that came to mind when I was introduced to the Nexa3D products. I have a routine when I leave the office at night, I always look into our Additive Manufacturing Lab to see what’s printing and then the next morning to see how far it’s gotten. Now, with ultrafast Nexa3D printers, I’ll have to change my routine. I am truly thrilled to be partnering with Nexa3D on our Additive Manufacturing journey.”
-Alex Habrich, CEO and Founder of the SolidXperience Group
SolidXperts offers a comprehensive 3D design product portfolio that helps companies and engineers move seamlessly from conception to production by leveraging industry leading CAD software and a full range of 3D printers and scanners. Nexa3D printers enable manufacturers and designers to achieve better print quality and up to 20x productivity gains in-house, using patented LSPc® (Lubricant Sublayer Photo-curing) technology, that is significantly faster than traditional stereolithography and digital light processes.
“Nexa3D is thrilled to partner with SolidXperts to make our technology even more accessible to the Quebec, Ontario and New England regions. Their team is strong, with significant knowledge of 3D printing solutions, and they have built an incredible relationship with their customers over the last 25 years founded on trust and exceptional service.”
-Patrick Sullivan, Vice President and General Manager of Industrial Products at Nexa3D
As an authorized reseller, SolidXperts proudly offers not only a comprehensive product portfolio of curated 3D printing options, but also offers printer materials, technical support, training, learning resources, consulting, and 3D design and printing services. Browse productsand services, or reach out to the Xperts directly.
Any questions? Need help? Ask one of our experts.
Whether you’re ready to get started or just have a few more questions, you can contact us toll-free:
Located in the heart of the UK’s auto industry, Vital Auto is an industrial design studio with deep expertise in automotive design. The company’s illustrious clientele includes many of the major automotive manufacturers, such as Volvo, Nissan, Lotus, McLaren, Geely, TATA, and more.
“Clients typically come to us to try and push the boundaries of what’s possible with the technology available,“ said Shay Moradi, Vital’s VP of Innovation & Experiential Technology. When manufacturers don’t have time for experimentation themselves, they rely on Vital Auto with any kind of challenge to turn ideas, initial sketches, drawings, or technical specifications into a fully realized physical form.
Read on to learn how Vital Auto—a customer of Formlabs’ fastest growing UK reseller, SolidPrint 3D—creates high-fidelity prototypes and concept cars, rapidly working through iterations using a variety of advanced tools, including a large fleet of Form 3L and Fuse 1 printers.
The Making of a Concept Car
Vital Auto was founded in 2015 when three friends got together, quit their jobs, and decided to set up a shop—fittingly—in a garage. One of the first contracts the company took on was for the NIO EP9 supercar concept, which instantly set the team on a course to producing extremely realistic, high-fidelity vehicular prototypes.
Depending on the client’s request, the team will start anywhere from simply a sketch on a piece of paper to an already designed vehicle. They develop cars from a blank sheet and design all the mainframes, all the exterior and interior elements, open/closings, and interactive elements. With five to 30 people working on a single concept, a typical project could take anywhere from three to 12 months.
During this time, a typical show car goes through up to a dozen core design iterations, and within those, there can be further iterations of smaller components until the design meets the expectations of the customer.
“It’s all well in our industry to look at virtual properties as a means of evaluating a product before it goes to market. However, I think there’s always going to be a place for physically manufactured objects as well. There’s nothing that beats the sensation and feeling of holding an object in your hands with the correct weight, with the correct proportions, and the dynamics of how the physical environment changes your perception of that physical object,“ said Moradi.
“Most of our customers will come to us with a new idea, an innovative idea, and something that’s never been done before. So the challenges for us are new every single day and they’re endless,” said Anthony Barnicott, Design Engineer in charge of additive manufacturing. “These challenges can range from, how can we produce this number of parts in this amount of time to, how can we make a sustainable product or how can we make a part that achieves a particular weight while still achieving a particular performance.”
While traditional show cars are normally made just from milling clay, the team also uses three- and five-axis CNC milling, hand forming, hand clay modeling, and GRP composites. These traditional processes are, however, often not ideal for producing the custom parts required for one-off concepts.
“We’ve used 3D printing from day one. We wanted to introduce it to our manufacturing processes, not only to reduce costs but to give the customer more diversity with their designs and their ideas,” said Barnicott.
Today, Barnicott runs a whole 3D printing department, including 14 large-format FDM printers, three Formlabs 3L large-format SLA printers, and five Fuse 1 SLS printers.
“In terms of capacity, all those printers have run 100%, 24/7, pretty much since day one. We use these printers for all areas of our concepts and designs. Typically, we would use the Fuse 1s for our production-based parts and we would use our Form 3Ls for our concept-based parts,” said Barnicott.
Manufacturing Complex Designs From Multiple Materials With the Form 3L
“We use the Form 3L machines for anything that is an A-class finished surface. So typically in an automotive environment, and interior where you have parts that are not being trimmed with leather or Alcantara or some sort of cloth material. Formlabs materials give us a nice, smooth finish for our painters to work with, we can use these parts straight out the printer, straight onto a vehicle,” said Barnicott.
“What interests me most about the Form 3L machines is their versatility, the ability to do a material change in less than five minutes and the variability of those materials going from a soft, flexible material to a hard and rigid material for us is priceless,” said Barnicott.
The team uses the Form 3L’s with multiple materials for a wide array of applications, for example:
Air Vents
“It’s a common challenge for us as a business where customers will approach us with a proprietary product and want to encase it in their own design. Once, a customer approached us with a proprietary air vent from another vehicle that they wished to have inside their own interior. We used 3D scanning technology to reproduce this part digitally and then created an external skin. We first produced this in the Draft material to test out the design and allow the customer to verify it. From there, we moved to the White material to produce a production-ready part.”
Switch Packs
“When working with incredibly intricate designs, such as small switch packs, what we’re able to do is use multiple materials to achieve a mechanical product that not only functions correctly but can be used in a real-world environment. [For these switch packs], we combined harder materials, such as the Tough 2000 for the top surface, with the lighter, more cost-effective materials for the internals.”
Door Seals
“Typically, door seals for automotive applications can be incredibly costly to produce. there’s simply no other way other than extrusion molding to produce them. This comes at, not only a very large tooling cost but also a long lead time as well. We were able to experiment with one of Formlabs’ newest materials, the Flexible 80A. The Form 3L enabled us to produce sections of this door seal overnight to test various geometries and was printed within 50 microns of the actual design.”
Having the Form 3L empowers the team to produce multiple iterations of parts in most cases within 24 hours. They ended up buying three different machines so they could produce up to three different iterations of a part at the same time, even using three different materials. They can then pass on the cost savings to the customer or offer more value by showcasing multiple design options for the same price.
“One of the beauties of using additive manufacturing is the compression of a timeframe. So what do you do in that span of time that you have freed up? We sort of seeing it as extending the possibility space into imagining alternatives, into adding more iteration loops in the process,“ said Moradi.
“There are many products we produce that we simply wouldn’t be able to without our Form 3Ls. With some of the most advanced manufacturing techniques, such as seven-axis CNC machining, we’d be able to produce these parts, but it would come at a huge compromising cost,” said Barnicott.
Complementing CNC Machining for Mechanical Parts With the Fuse 1
“The Fuse 1 one was our first venture into SLS technology. As a small business, this is a technology we thought we would never be able to have on-site. With the Fuse 1, not only do we have one of the machines, but we actually have five of the machines on the site. What these machines enable us to do is produce structural mechanical parts very quickly, not only for testing but for physical applications in most of our concepts. This process would have typically been done by CNC machining, either on our site or off-site, depending on the geometry, and we would have to wait two to four days to get the parts in our hands. The Fuse 1 enables us to cover all of this on-site and have parts in our hand in most instances, less than 24 hours,” said Barnicott.
The team mainly uses the Fuse 1s for mechanical parts, such as door hinges, door handle inners, door internals, and structural applications. They can use these parts straight off the printer, with minimal finishing. Some of the applications where the team used the Fuse 1s include:
Air Duct
“A lot of automotive interior parts can be incredibly tricky to produce without going down the traditional injection molded route. Items such as internal air ducts and vents, items that are never seen, but yet require a large cost to produce. We use the Fuse 1 to produce these parts. It allows us to be much more versatile with the designs we put in the vehicle without incurring the large costs that they would typically have.”
Brake Caliper
“Sometimes we produce parts whereby the customer simply wants to see what their brand will look like on a specific part. That means we have to produce a part rather quickly so we can apply their brand to it. We use the Fuse 1 to produce these parts, such as a brake caliper, and we can produce the logo in different areas of the caliper in different colors for the customer to review.”
Interactive Concept for a Supercar
“3D printing has allowed us to combine both the SLA and SLS materials to work our way through design iterations on a specific project. This allows us to quickly produce multiple iterations, combining both processes, using them for their specific properties, to achieve a final design. This can be anything from mechanical parts to clear parts to check their optical quality and output.”
While it’s often said that additive manufacturing is here to replace subtractive manufacturing, the Vital Auto team sees benefits in combining different technologies to leverage their best qualities.
“We use the two processes together to help support each other. We have many parts where we would use subtractive manufacturing and then use additive manufacturing to produce all the finer details. This allows us to have a much more cost-effective way of producing a lot of our concept models,” said Barnicott.
Creating High-Fidelity Concept Cars With 3D Printing
“The progression in technology and 3D printing over the last 10 years is phenomenal. When I first started, producing low-volume, niche vehicles, some of the products that we produce today would simply have been inaccessible. And not only am I able to produce these parts today, but I’m also able to produce them very cost-effectively, very quickly,” said Barnicott.
3D printing not only helps the team create better products faster but also attracts new business. They found that many of their customers turn to them because they want to have access to the latest technologies and they want to have their components made using the latest cutting-edge materials.
“There are certain things that you just can’t class as emerging technologies anymore. 3D printing is one of those things. It’s advanced to a point where everything that we produce is good enough for use in the final presentation stage with all the layers of making that we apply on top of that. 3D printing has gone from almost a novelty to becoming an absolutely inseparable part of what we do,“ said Moradi.
Seamlessly transition from SOLIDWORKS Desktop to 3DEXPERIENCE SOLIDWORKS, and experience a new dimension of design and collaboration. With secure cloud data management, increased collaboration capabilities, and reduced IT administration, 3DEXPERIENCE SOLIDWORKS empowers your team to work smarter and faster.
Option 2: Upgrade to SOLIDWORKS TERM w/Cloud Services
Opt for SOLIDWORKS TERM with Cloud Services, a flexible and convenient option that combines the power of SOLIDWORKS with the benefits of cloud-based solutions. Say goodbye to traditional licensing hassles and welcome easy deployment and automatic updates for a seamless design experience.
Promotion Perks:
This promotion covers both Standalone and Network licenses (SNL), making it suitable for businesses of all sizes.
Take advantage of the promotion price and add as many new licenses (3DEXPERIENCE SOLIDWORKS or SOLIDWORKS TERM w/Cloud Services) as you need on the same Purchase Order, with no limit on extra seats.
Enjoy the promotion discount for 3 years, whether purchased annually or upfront.
Even after the promotion period, you’ll continue to benefit with a 25% discount on successive years.
Option 1: For licenses <1 year expired( Pay 2 Years Forward Upfront )
Get back on track with SOLIDWORKS CAD w/Cloud Services. By paying upfront for the next two years, you not only regain access to the powerful features of SOLIDWORKS but also enjoy cloud services to boost collaboration and efficiency.
Promotion Perks:
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Regain access to your design projects and continue where you left off, without any interruptions.
Option 2: For licenses >1 year expired ( Pay 3 Years Forward Upfront )
If your license has been expired for over a year, we understand the urgency to get back in the game. With this option, you can secure SOLIDWORKS CAD ALC w/Cloud Services.
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