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Improving Mold, Tool, and Die Design with SolidWorks Software
Technology Category
- Functional Applications - Product Lifecycle Management Systems (PLM)
- Analytics & Modeling - Predictive Analytics
- Functional Applications - Computerized Maintenance Management Systems (CMMS)
Applicable Industries
- Automotive
Applicable Functions
- Product Research & Development
- Quality Assurance
Use Cases
- Predictive Maintenance
- Manufacturing System Automation
Services
- Software Design & Engineering Services
- System Integration
- Training
The Challenge
Quality Tooling, Inc. faced increasing competition in the tooling market and needed to increase production and reduce design errors. The company identified that many of their mistakes were related to design changes impacting other components in an assembly. They required a CAD system that could handle diverse types of CAD data efficiently to improve productivity.
About The Customer
Quality Tooling, Inc. designs and builds molds, tools, and dies for some of the world’s leading manufacturers. The company has been in the tooling market for many years and has established a reputation for quality and precision. As the market became more competitive, Quality Tooling sought to enhance its technology to maintain its edge. The company is based in the United States and employs between 11-200 people. Their primary focus is on increasing throughput and reducing design errors to stay competitive.
The Solution
Quality Tooling selected SolidWorks 3D CAD software after evaluating three parametric CAD systems. SolidWorks was chosen for its ease of use, value for money, large assembly capabilities, data flexibility, and mold development tools. The company also acquired MoldWorks and SplitWorks, specialized mold design applications integrated with SolidWorks, to automate important mold development tasks. These tools helped accelerate the design of mold bases, plates, and components, and automate the process of core and cavity separation and creation.
Operational Impact
Quantitative Benefit
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