Discover the Latest Advancements and Opportunities in SolidWorks Designing

Do you want to improve your SolidWorks skills as a student or a working person? Would you like to learn more about the most recent developments in SolidWorks design? This blog post is for you if the answer is yes. In this post, we’ll talk about SolidWorks’ cutting-edge design options and how you may use them to your advantage.

Why Solidworks?

Engineers and designers frequently utilize SolidWorks, a popular computer-aided design (CAD) program, to build 3D models and simulations. It is extensively employed in sectors like consumer goods, medical gadgets, aircraft, and transportation. A variety of tools and capabilities provided by SolidWorks enable designers to quickly produce intricate models. SolidWorks has something to offer everyone, whether you are a novice or an expert user. It’s time to refresh your design knowledge on Solidworks 2022 since the Solidworks 2023 update is only a few months away.

New Features in SolidWorks

In order to stay on top of the most recent market trends, SolidWorks continually upgrades its software with new features and capabilities. SolidWorks 2022, the most recent edition, contains a number of new features, including:

Improved Simulation Capabilities:

Better simulation capabilities enable designers to correctly predict the behavior of their systems by simulating complicated scenarios.

Assembly Structure System:

SolidWorks 2020 marked the official release of the Assembly Structure System. Designers may arrange intricate assemblies in a more effective and logical manner thanks to this functionality. You may use this functionality to organize similar parts and subassemblies into folders and subfolders. An structured assembly system reduces mistakes and saves time by making it simpler to traverse and handle complicated assemblies.

Simplified User Interface:

SolidWorks is now accessible with a simplified user interface, making it simpler for users to explore the program and quickly discover the capabilities you want.

Mesh Modeling:

This feature makes it simpler to design intricate organic structures. Using this tool, you may manipulate the mesh geometry to produce intricate forms. This is especially helpful in sectors like automotive and consumer goods, where you need distinctive geometric designs.

Topology Study:

Another interesting feature that’s fairly new is Topology Study. With this, designs for weight and strength may be made. You may model the stresses and strains placed on their designs to find potential areas for weight-reduction optimization. This is especially helpful in sectors like aerospace and automotive, where reducing weight is essential for increasing productivity and efficiency.

Let’s examine the innovative designs we can produce with these newest SolidWorks capabilities in more detail, as well as how a properly-designed curriculum may aid in your development of these abilities to the fullest. 

Innovative Design Possibilities with SolidWorks

When it comes to innovative design concepts, SolidWorks provides countless alternatives. SolidWorks’ variety of tools and capabilities make it simple to produce intricate and detailed models fast and effectively. Innovative design options using SolidWorks include the following:

Design optimization:

SolidWorks provides simulation tools that enable designers to enhance the performance and effectiveness of their designs. Design optimization aids in the production of goods that are both economical and up to consumer standards.

Advanced Surfacing:

It provides powerful surfacing capabilities that enable designers to produce intricate, organic structures. In sectors like automotive and consumer goods, where items must have appealing looks, this trait is helpful.

Additive Manufacturing:

SolidWorks provides tools that enable designers to produce models for additive manufacturing. By adding layers of material rather than removing them, objects are made using the additive manufacturing technique. It is frequently utilized in fields like aerospace and medical equipment, which need complicated geometry.

Collaboration:

While utilizing SolidWorks, you may easily collaborate with your design team. The project may be easily collaborated on in real-time thanks to cloud-based design sharing. This feature enables increased designer cooperation, which improves design outputs. They may pool their knowledge and experience in real time by working together on the cloud-based system, leading to better designs and more creative solutions.

If you want to improve your SolidWorks designing skills, you can enroll in our SolidWorks certification course. This course is designed for both beginners and experienced users and covers topics such as 3D modeling, simulation, rendering, and assembly design. The course is available online and in person, and offers hands-on experience with the software.

Wrapping Up!

In today’s fast and competitive world, innovative design is crucial. Designers may push their limits and consider novel options with SolidWorks. SolidWorks provides a variety of tools and capabilities that may assist designers in achieving their creative design goals, from design optimization to advanced surfacing and additive manufacturing. 

SolidWorks is a powerful CAD program that provides countless options for creative design. SolidWorks gives designers the tools and functionality they need to quickly produce intricate models. Your professional abilities can be enhanced by obtaining a SolidWorks certification and registering for Advanced SolidWorks Training. Additionally, it makes you more marketable as a designer with in-depth knowledge of the program. 

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The use of APS in New Ford GT40s

APS utilizes CAD Design with SolidWorks and simulation tools for designing Ford GT40s to cut the cost of designs by 50%. The tool reduces the assembling time by 40% which in turn decrease the overall development cost and make it more accessible.

Ford manages the maintenance cost tolerance

Ford Company has employed Sigmundworks, Sigmund ABA and SOLIDWORKS to keep up the tolerances. These plug-ins greatly help to identify the design bugs, which are addressed and treated before they result in significant monetary losses.

JL Race cars simulating and modeling

Since beginning JLE has been using CAD- 2D, AutoCAD Mechanical, and 3D SOLIDWORKS platforms. These tools have efficiently reduced the design cycle’s cost by 70%. Moreover, JLE has standardized its product lifecycle by using SOLIDWORKS designs, analysis, and product data management solutions.

Overall, with these CAD tools the efficiency, performance, and accessibility of the automotive industry can be increased manifolds.

The post What are the three exceptional applications of CAD for CAR DESIGN? first appeared on CADD Centre Resource.

What are the Prerequisites to Learning SolidWorks

Professionals that have been working on 3D CAD designing are well aware of SolidWorks. This software is an industry favorite even though there are software packages with more complex functionalities. SolidWorks enjoys a large user base, even larger than AutoCAD which is the primarily used software kit for 2D drawings.

The reason behind the success of SolidWorks is its intuitive, smart, and logical innovations in the user experience and clean whilst through function set. The tool has become one of the favorite applications in the fields of fashion, sports, as well as in the automobile industry. Design Engineers all over the globe and across industries are adopting this powerful software pack in their product design and development process.

Learning SolidWorks

If you aspire to work in the field of industrial design, learning SolidWorks is one of the best ways to go. Its prerequisites include:

• A graduate degree or a diploma in Mechanical Design, Production, Industrial, or Automobile Engineering.
• Students that are appearing in their final year can also go for a SolidWorks certification.
• Design professionals already working across industries can also get SolidWorks certified.

Candidates with Professional SolidWorks Certification are capable of quickly designing products and having a strong knowledge of processing the 3D scan data, images that are imported, or even simple sketches to demonstrate the initial concept. Trained individuals can create an electronic workflow covering all the tasks including concept design, prototyping, to conducting a test for the functionality of the product. Also, the application helps them better manage files and related documents in a centralized location that is easy to collaborate with the team at any and every stage of product development.

The tool, with rich features and powerful capabilities, is used to design parametric models of parts and assemblies by creating detailed drawings and models. Being one of the most demanding tools in the market, employers are looking for candidates that are SolidWorks certified to employ them immediately.

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In the ever-evolving landscape of technology, the design industry is undergoing a profound shift in its requirements. To meet the demands of this dynamic environment, designers and engineers now require tools and applications that are not just adaptable but also highly responsive to the evolving product design process. Among these transformative technologies, SolidWorks has emerged as a game-changer in the field of engineering design in recent years.

Embracing Innovation in Industry Design

SolidWorks has embraced a holistic approach to design by incorporating social, collaborative, and conceptual methods into the design experience. Its design philosophy is built on empowering engineers with powerful and easily accessible technologies that streamline the design process while delivering significant business advantages.

Overcoming Traditional Design Challenges

Before the advent of SolidWorks in the engineering design field, designers faced numerous challenges. These challenges included extensive rework, data incompatibility, limited flexibility, slow processing times, disconnection between industrial and mechanical designs, and difficulty in evaluating multiple design concepts. These roadblocks resulted in low efficiency and delayed time to market.

The Power of Free Form Design

One of SolidWorks’ most promising features is its ability to blend traditional modeling techniques with advanced free-form methods. The SolidWorks Industrial Design package provides engineers with the capability to create precise and easily navigable designs. This application removes the aforementioned barriers by offering an intuitive modeling environment that enhances the overall industrial design process.

Advanced SolidWorks Capabilities and Data Management

SolidWorks Industrial Design is equipped with advanced design capabilities and transparent data management. These features enable engineers and designers to swiftly resolve industrial design challenges and produce structures that can seamlessly transition into mechanical models. With the SolidWorks Industrial Design application, engineering professionals are now able to create intricate 3D designs and incorporate mechanical data directly, eliminating the need for additional rework during the transformation into mechanical models.

SolidWorks: Transforming the Mechanical Design Industry

SolidWorks has not only transformed the field of mechanical design but has also made it safer, quicker, and more accessible than ever before. As a result, there is a growing demand for certified SolidWorks professionals across organizations. If you’re eager to explore the world of SolidWorks Industrial Design and unlock lucrative career opportunities, consider enrolling in the Advanced SolidWorks Training offered by the CADD Centre. Their industry-oriented and market-focused certifications can propel engineering design professionals to new heights in their careers.

Conclusion

In a world where technological innovation is the driving force behind progress, SolidWorks stands as a beacon of change in the engineering design landscape. It has addressed the shortcomings of traditional design methods and ushered in an era of efficiency, collaboration, and innovation. As the demand for professionals skilled in solidWorks software continues to rise, now is the perfect time to embark on a journey of learning and growth with SolidWorks.

The post SolidWorks Industrial Design: Bringing Ideas to Life first appeared on CADD Centre Resource.

Earlier the parts and equipment designed in the pre-CAD era caused problems in industries right from aerospace to power generation. Things that were designed without the benefit of CAD technology used to lack the critical documentation and information that was necessary for creating accurate models. Therefore, reverse engineering was essential in order to create CAD models needed by engineers and came into existence.

Understanding Reverse Engineering

Reverse engineering is a technology that helped in creating a three-dimensional virtual model of an existing physical part. Manufacturers made use of reverse engineering to deconstruct products or systems and evaluate, improve, or transform obsolete design information. However, now there are a number of optical measurement systems available for engineers today that are the best alternative to previous methods. Have a look at the tools that are now mainly used for reverse engineering:

Handheld Scanner

Traditional methods such as creating 3D models based on hand measurement and 2D drawing are expensive and time-consuming. Therefore, it became crucial to use 3D scanning for reverse engineering. Handheld Scanners can digitize 3-D surfaces and input relevant information into CAD systems. The tool is also famous to speed up the reverse engineering process.

CAD Design with SolidWorks

Solidworks is the most acceptable tool across the globe and helps in streamlining the design process by refining the existing designs or creating new ones. It can help in the development of 3D models, export to the 3D printer for the development of a prototype, or create molds.

Point Cloud

Point Clouds are developed by 3D scanners that measure huge points over the surface of an object and give the output in the form of a data file. Therefore, the point cloud is used in the creation of 3D CAD models in case of quality inspection, animation, visualization and for manufactured parts.

Geomagic Design X

The tool is built for converting 3D scan data to high-quality and feature-oriented CAD models. Geomagic Design X not only helps in creating feature-based models but also an editable solid model that is compatible with the existing CAD software. Also, it is the most comprehensive reverse engineering software.

HighRES Add-in for Inventor

It is highly compatible laser scanning software that is available today and functions to easily transfer scanned data for further enhancement. The tool can help in obtaining measurement data, convert it to a parametric CAD model, and has many more features. They are developed in order to support the current release of the respective CAD/CAM software.

Innovation for the Future

The aforementioned is the list of software that works for active development giving an emphasis on renewal and innovation. If you are looking for a partner who can assist you in reverse engineering tools, take up the Product Design using Reverse Engineering course from IID. Within the course, professionals with expertise in reverse engineering will help in your knowledge expansion and subject training.

The post 5 Reverse Engineering Tools: Transforming Innovation in CAD Modeling first appeared on CADD Centre Resource.

Using SolidWorks to Design Medical Equipment

Medical instrument designers and developers face a number of business and engineering challenges specific to their industry. Several issues are to be considered during manufacturing of medical equipment, the most important among them is patient safety, others include efficiency, effectiveness, and cost containment. From regulatory data management and virtual simulation to flexible industrial design capabilities, SolidWorks Design Training enables you to design complaint medical breakthrough in record time.

Business Challenges

The Biomedical Engineering industry is highly competitive and volatile, changing on daily basis. Not only medical devise engineers have to address normal design challenges such as time to market, innovation, cost reduction and global competition, they also have the massive responsibility of patient safety and other strict regulatory guidelines.

Adding further challenges, increasing regulatory scrutiny is putting medical devices manufacturers under the gunpoint for total quality and safety. The Food and Drug Administration is keeping a full check by issuing warning letters resulting in a climb in time and budget medical devices manufacturers spend on regulatory activities.

For example, when Tensys Medical Inc. developed their first arterial blood pressure management system, the company was aware that it had narrow window for opportunity and needed to get the product released in the market quickly, it credits SolidWorks design validation tools which enabled them to shorten the design cycle by 60 percent helping the team to create a new medical market space.

Medical staff has strict aesthetic requirements that designers must meet such as reducing operating time and surgery costs. Also the materials used for medical products have been very sophisticated and product engineers need to be aware about their strengths and conductivity along with their effects of sterilization on their material properties.

Implant devices such as cardiovascular stents, must be error free as failures can cost fatalities. Orthopedic implants, such as knee and hip replacements have to function flawlessly to avoid pain and fracture dangers for the patients.

Product engineers have to predict the life span of implantable devices accurately so that the patience can have them removed or replaced timely and in a non-life-threatening manner.

Virtual simulation, with concurrent engineering approach, helps medical product engineers balance all these simultaneous requirements gaining product reliability, quality and safety.

Design Validation for the Medical Device Industry

The main purposes for which engineers perform design analysis include proof of concept “what if”. Validation studies to identify the best design, product reliability, design confirmation and assistance in answering to regulatory requirements. The studies can include variations in geometry, type of material and different operating loads.

Why SolidWorks

SolidWorks customers have enjoyed many benefits while designing Medical Products. SolidWorks unique resources include:
Design Ease of Use: SolidWorks exceeds in its intuitive Design and Productivity without compromising ergonomics.
DimXpert: SolidWorks generates Geometric Dimensioning and Tolerance based drawings per ANSI/ ISO standards for correctness and completeness.

Integrated FEA and CFD Validation:SolidWorks simulation helps determine factors of safety, Mean Time Between Failures (MTBF), Vibration Level Monitoring, Efficiency Estimation, Development time and Reduction in Product Cost.

Integrated ToleranceStack Up Analysis:SolidWorks ensures the medical equipment to meet stringent safety and reliability standards.

Adherence to FDA 21 CFR Part 820 and FDA 21 CFR Part 11 is a mandatory consideration for a medical product designing team. All the tools needed in compliance are available when designers use SolidWorks product data management- including complete design revision history, electronic signatures as well as full audit trial.

Documentation and Service Manual Preparation: This is a very important part of product development process. Being a vital and intrinsic part of the Company’s Intellectual Property Rights (IPR) that needs to be stored and re-used.

SolidWorks Simulation Solutions

SOLIDWORKS software is a 3D CADD program of choice for many manufacturing firms of diagnostic and clinical equipment, surgical tools, implants, drug delivery systems and pharmaceutical packaging systems.

Testing during each phase from designing concepts to detailing and validation phases of product development is crucial. Medical products need proper understanding regarding how products will work and whether they will behave as desired. Intuitive SolidWorks Simulation design validation solutions enable SolidWorks 3D CAD software users to perform a variety of simulations and leverage CAD data for engineering purposes during all phases of the design process. Further, since SolidWorks Simulation is embedded within SolidWorks 3D CAD, users can accomplish these studies without switching between multiple interfaces.

Aligned integration between design and simulation also makes it possible for medical device engineers to perform easy design modifications and configuration-specific studios to enable the manufacturer of products customized to individual requirements.

Proven Simulation Solution

The virtual testing capabilities within SOLIDWORKS Simulation are built on a strong finite element analysis (FEA) foundation. SOLIDWORKS Simulation, together with the CFD capabilities in SOLIDWORKS Flow Simulation, the plastic injection molding tools with SOLIDWORKS Plastics, the sustainability features improve overall design avoiding failures.

Thermal: Thermal analysis calculates the heat transfer and temperature between components during devise working process in medical design and its environment.  Thermal is an important consideration for medical device design and its environment as many products contain materials with temperature dependent properties and also because there may be possible effects of human body temperatures and heat generated by electronic components embedded in the product.

Vibration: SolidWork shave come up with designs catering to resolve design issues that leads to unwanted vibrations in the product. Vibrations that medical devices may experience can reduce performance, shorten product life, or even may lead to improper usage of the product.

Fatigue analysis: Fatigue can be defined as failure under a repeated or varying load which never reaches a level sufficient to cause complete failure in a single application. Fatigue analysis examines how repeated or random load cycles cause structural failure. With SolidWorks Simulation, the designers are able to conduct fatigue analysis and optimize the designs and material selection.

Sustainability: SolidWorks sustainability provides actionable environmental results by measuring the environmental impacts of individual designs across the product life cycle- including the effects of manufacturing, material, assembly and transportation.

Computational fluid dynamics (CFD): Fluid flow issues are very critical in medical devices. Devices such as artificial heart valves, oxygen delivery or a host of other such products, the flow or a variety of fluids must be reliable at designed and at prescribed temperatures. SolidWorks Flow Simulation, integrated with SolidWorks 3D CAD makes it possible to study such concerns in a very straightforward manner.

Conclusion

Designing medical products is a crucial trait as the designers have to meet the needs of physicians, patient safety and regulatory agencies under demanding situations. Product quality is something which cannot be compromised as life depends on their performance. To be ensured that the products meet all these requirements, medical product designers now have access to highly sophisticated tools with an embedded Simulation CAD solution. These capabilities help them to test the product very early during the design process. The performance of the product is examined for improvement in concepts, design optimization and failure detection. SolidWorks have been adopted by majority of the Medical equipment manufacturers at the de facto standard in their design and testing process. Advancing in the direction of innovation and inventions, SolidWorks has set a new paradigm in qualitative design of medical equipment. The SolidWorks hence produce products with higher innovation that are ready to become medical breakthroughs. SolidWorks Drafting Certification helps to professionals to master the design of innovative medical products.

Image courtesy: Rwww.3dprintpulse.com

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