KM CNC Machine Service

Share

To quickly deliver production representative parts for a medical OEM to complete biocompatibility and functional testing, Westminster Tool used Mantle's Trueshape metal 3D printing technology to produce a prototype tool that provided the team with insights they could apply to the production tool build, saving time. Source (All Images) | Westminster Tool

Since July 2022, Class 101 injection mold manufacturer Westminster Tool has pushed the limits of its Mantle Beta metal additive manufacturing (AM) machine, worked with Mantle to improve the machine's quality and efficiency and completed numerous trials to identify ways to add value using this technology.

The company’s latest success story used metal 3D printing to quickly deliver production representative parts for a medical OEM to complete biocompatibility and functional testing. This included molding more than 7,000 pieces for development trials. They were then able to implement the lessons learned from the prototype mold build into a production mold, resulting in over 30% in design cost savings.

“Most of all, this tool design had over 40 swipe-by shut-off conditions, something we were concerned a printed technology wouldn’t be able to handle,” says Hillary Thomas, vice president of Westminster Tool. “Traditionally, this type of project would have required at least 8 weeks for manufacturing, requiring over 30 electrode shapes alone for EDM.”

The project was broken down into two phases of implementation.

 

Phase 1: Production-Quality Prototype Parts Within 4 weeks

The first step was manufacturing a prototype mold using MUD frame inserts and H13-equivalent printed cavities to replicate a production environment as quickly as possible. To do this, Westminster Tool used Mantle’s Trueshape Technology to print a top and bottom cavity. While the cavities were printed and sintered over 8 days, the Westminster Tool team finalized a post-print machining strategy, ordered MUD inserts and began the insert modifications.

The cavities required 55 hours of post-machining, which included the following:

  • Grinding the bottom of the blocks to have a flat base to start from
  • Squaring the block to bring molding geometry to center using hard mill
  • EDM wiring ejector pin holes
  • Tapping water lines and bolt holes
  • Hard milling and using EDM on difficult swipe by areas (six areas total)

These operations took an additional 1.5 weeks before Westminster Tool was ready for final assembly and molding: resulting in molded parts within 4 weeks. The parts had minimal flash, and all critical dimensions were within  ±0.003".  

The parts were then molded in batches for development and biocompatibility testing in two different materials. The first was an ABS resin and the second was a PC/ABS blend. Ultimately, more than 7,000 pieces were produced for the customer’s development needs.

The Westminster Tool team implements lessons learned from the prototype mold build into a production mold, resulting in over 25% in design cost savings.

Phase 2: Reviewing Lessons Learned

The first of several lessons learned involved warp and sink challenges. The Westminster Tool team was able to improve some of these by adjusting process parameters, but not all. Despite achieving success in development testing, these remaining defects needed to be addressed in a production mold. While the company waited for feedback from the customer, they began identifying root causes and mitigation strategies such as surface finish, ejection and gating strategies for the production mold.

This led to a better understanding of how the material performed in the tool during molding. For example, the length of the part was shrinking more than anticipated, thus moving a dimension out of tolerance. Based on the successful fitment of the prototype part into the assembly, Westminster Tool and the customer were able to move forward with the length at its current state confidently.

“Traditionally, we would have suggested staying steel safe in this area to hit the tolerance, which would have added cost and time,” Thomas says. “But in this case, we were able to shift our expectations and still meet the requirements.”

The team tackled warp and sink challenges in both the prototype and production mold stages by identifying root causes and mitigation strategies. This yielded a better understanding of how the material performed in the mold during molding, saving time and money.

 

Real Savings for Production Molds

“At Westminster Tool, we complete a thorough design for manufacturing process for every production mold we build,” Thomas says. This is heavily focused on risk identification and mitigation, and it accounts for about 20-30% of design costs. “By learning and understanding the prototype tool and the risk related to the part, we have a chance to remove most of these costs from our production tool build.” With this project, Westminster Tool already had the majority of the cavity stacks designed, saving an additional 10% of design time.

Most of the time, projects get hung up on the qualification phase of tools. “During the process of building tools, our pride comes from working towards real savings on the back end of the project,” Thomas shares. Whether it’s learning the hard way, for example, that a material is shrinking differently than expected or dealing with a mechanical challenge, troubleshooting can unnecessarily add weeks to a timeline.

Westminster Tool’s ultimate goal is to get involved sooner in part development so the team can seamlessly transition a complex mold from qualification to production.

Techspex
Progressive Components
Data Flute
Date Code Inserts
KM CNC Machine Service
MMT Today enews
North America’s Premier Molding and Moldmaking Event
MoldMaking Technology Magazine

Related Content

Eden Tool and Eden Manufacturing: A Story of Resilience, Growth and Innovation

This critical parts manufacturer, founded on solid tooling fundamentals, didn’t get derailed with the unexpected passing of the owner because leadership was already building a solid business, not just a good tool shop. Here’s how they managed change incrementally… and they’re not finished yet.

Read More

How to Improve Your Current Efficiency Rate

An alternative approach to taking on more EDM-intensive work when technology and personnel investment is not an option.

Read More
Medical

U.S. Economy Indicates Prospects for Moldmakers

An examination of the U.S. economy suggests its resilience against a recession, yet a mixed outlook for moldmaking and plastics persists.

Read More
Education

Dynamic Tool Corporation – Creating the Team to Move Moldmaking Into the Future

For 40+ years, Dynamic Tool Corp. has offered precision tooling, emphasizing education, mentoring and innovation. The company is committed to excellence, integrity, safety and customer service, as well as inspiring growth and quality in manufacturing.

Read More

Read Next

3D Printing

MMT Chats: Pushing Further 3D Printing Development for Tooling

Partnership yields improvements to how tooling components are made with a new level of precision, accuracy and surface finish right out of the printer. Hillary Thomas, Westminster Tool and Paul DiLaura, Mantle tackle these topics with MMT Editorial Director Christina Fuges. This episode is brought to you by ISCAR with New Ideas for Machining Intelligently.

Read More
Medical

Westminster Tool, Mantle Develop Case Study for Medical Devices

The joint project set out to create medical-grade forceps while testing the design, material, manufacturing and injection molding process with metal 3D-printed cavities.

Read More
Case Study

Westminster Tool Run Rigorous DOE on New 3D-Printed Tool Steels

Hybrid 3D printing platform offers mold builders high-tolerance metal parts faster, at lower cost and with less secondary finishing.

Read More
Data Flute