3DCS Variation Analyst cho phép người dùng thử nghiệm các mô hình được thiết kế trong điều kiện không ổn định. Phần mềm này mô phỏng các chuyển động và sự không ổn định áp dụng cho từng thành phần hoặc toàn bộ mô hình, phân tích và phân tích độ ổn định và điện trở của chúng và đưa ra kết quả cho người dùng và thậm chí có thể mô hình hiệu suất cho từng thành phần. Điều gì tốt hơn để tối ưu hóa. Sử dụng tiện ích bổ sung này, bạn có thể kiểm tra độ bền và hiệu suất của nhiều yếu tố thiết kế riêng lẻ hoặc được lắp ráp trong phần mềm CAD và cuối cùng tối ưu hóa chúng để có kết quả tốt nhất.
Các tính năng chính của phần mềm 3DCS Variation Analyst:
– Hoàn toàn trùng lặp và tích hợp với phần mềm CAD
– Tốc độ và độ chính xác hiệu suất – Phân tích chi tiết
hoặc chung về các mô hình
– Phân tích và tối ưu hóa tất cả các bộ phận
– Mô phỏng môi trường và sự không ổn định cho từng phần
– Thực hiện tất cả các loại kiểm tra độ ổn định và Không ổn định
– Báo cáo các đoạn có thuộc tính khác nhau
– Tối ưu hóa các phần không ổn định và kém
– Đầu ra Excel và báo cáo bổ sung
3DCS Variation Analyst Multi-CAD
3DCS Variation Analyst Multi-CAD Software is used by manufacturers across the globe for Tolerance Analysis to reduce scrap, rework and warranty claims.
3DCS Variation Analyst is used by the world’s leading manufacturing OEM’s to reduce their costs of quality. By controlling variation and optimizing designs to account for inherent process and part variation, engineers reduce non-conformmance, scrap, rework and warranty costs.
Tolerance Analysis Results3DCS Variation Analyst Multi-CAD is a stand alone tolerance analysis software solution that simulates product assembly and part tolerance 3D stack-ups through Monte Carlo Analysis and High-Low-Mean (Sensitvity) Analysis.
3DCS Multi-CAD simulates part and process variation with Monte Carlo Simulation to give statistical outputs showing the estimated percent of products that will be out-of-spec, the primary contributing tolerances and parts to variation issues and specified statistical measures such cpk and ppk.
Simulate the Assembly Process3DCS Multi-CAD uses three methods of simulation; Monte Carlo Simulation, High-Low-Mean (Sensitivity analysis) and GeoFactor Analysis. These together highlight the sources of variation as well as potential build issues in the product.
By accurately modeling the build process, users can determine how their process will affect the assembly in addition to their part tolerance stack-up. This together essentially creates a virtual prototype that can be used to make decisions about design changes and tooling while reducing scrap and rework.
Gain New Insight Into Your Design
The Cost of Quality in PLMSimulating products in a digital environment gives engineers the ability to account for variation in key areas, reducing rework, non-conformance and scrap at final assembly early in the design phase when changes are least expensive.
In addition to this, specifications deemed less critical can be relaxed, increasing tolerances and allowing the user of less expensive manufacturing processes. Creating 3-dimensional tolerance stack-ups let engineers know where to focus in their design, and the ability to create what-if studies allow them to determine solutions that include both process and tolerances to keep costs down and quality up.
Product Features and Value
What does 3DCS Multi-CAD offer your company?
Utilize Embedded GD&T
Validate and Optimize GD&T
3DCS Multi-CAD can use embedded GD&T from your CAD to instantly tolerance your parts. Simulate the build to validate your tolerances, then make adjustments to optimize for cost, quality and control. Push your tolerances back to CAD and update your models.
Build analysis models faster (embedded GD&T is not required for a model)
Push button import of CAD GD&T
Validate and optimize your GD&T in a test lab, then push back when ready
Determine Design Objectives with Visualization
Communicate effectively between Engineering and Design
Create life-like images of your product showing worst case scenarios to determine the visual impact of variation stack-ups. Use these studies to determine maximum and minimum tolerances during design and communicate with engineering. Once engineers have determined the manufacturing tolerances, recreate the studies to see how your actual product will look with worst case tolerance stack-ups. These studies together help you control the Perceived Quality of your product as well as your build quality.
Determine the impact of variation on the appearance of your product
See what worst case scenarios will look like on final product
Improve both build and perceived quality of products
Visualize Your Design Objectives
Determine Contributors and Make Changes
Find the sources of your variation and simulate your changes to determine impact
Find the source of variation, honing in on either particular part tolerances, or processes. Many times the source of variation is in the assembly process and the solution does not require the changing of tolerances. This can give engineers the ability to improve quality without having to make costly tolerance adjustments. In addition, tolerance and process changes can be made in the model and simulated to find optimal conditions to get the greatest increase in quality at the lowest cost.
Find primary source of variation issues from either tolerances or assembly process
Make changes and determine the affect of variation
Use iterative changes to create the optimal design for maximum quality and minimum cost
Create Reports and Measurement Plans to Collaborate
Create Management and Engineering Reports as well as Measurement Plans Automatically to communicate results across your organization
Use reports and measurement plans to communicate results across the organization. Detailed engineering reports communicate with other design teams the inputs and outputs of the model so that the results can be repeated and understood. Management Reports communicate the key outputs to managers to support key decision making. Measurement Plans communicate important areas and particular points to be measured at the plant or CMM room to control variation and watch for out-of-spec and non-conformance conditions.
Quickly communicate detailed inputs and outputs with customers and other teams
Share key outputs with managers to support important decision making
Create Measurement Plans tied to CAD for the manufacturing plant to use in order to control and monitor variation effectively in production, answering the question, ‘Where should we measure?’
Key Product Highlights
3DCS Multi-CAD is an advanced analysis tool giving you the information to make decisions on quality
– Simulate Both Part and Process Variation
– Use Monte Carlo Simulation, High-Low-Mean and GeoFactor
– Include Kinematics, Thermal, Gravity and Force
– Use Plant and Measurement Data to Solve Manufacturing Problems