Prototyping rapid, cost-effective sample parts with Ultimaker

Sylatech uses the Ultimaker to prototype sample parts for its customers, allowing them to test their designs without having to invest in tooling ahead of investment casting. This yields significant time- and cost savings as fewer tooling modifications are necessary.

 

“With the Ultimaker, we can use a 3D printed model for the creation of sample parts directly in our foundry process, without having to invest in tooling to create wax patterns. Through 3D printing we can significantly speed up our sampling process – clients can now get a prototype metal part in just seven days”

Gordon Gunn, Director of Marketing at Sylatech

Sylatech – Introduction

Sylatech is a design and manufacturing business with a heritage of 53 years in delivering precision custom engineering solutions for its customers, delivering high-quality systems and components to exacting standards. Sylatech’s service offering spans three core functions:

- Investment Casting Foundry – manufacturing precision metal parts through lost wax investment casting

- CNC Machining – comprehensive machining del iverJOH precision-engineered metal components

- RF and Microwave – custom design and manufacture of microwave systems, subsystems, assemblies,and components

Operating from the UK, Sylatech has a global customer base across multiple business sectors including Aerospace, Space, Defence, Medical, Automotive, and Construction.

Challenge

Traditionally, design engineers would not be able to thoroughly test the functionality of their designs without going down the route of investing in tooling for investment casting. This tooling process typically will take some 3-4 weeks to complete and Sylatech customers typically incur a cost of between £2,000 to £4,000 per tool. About 30% of the tools would require alteration due to customer design modifications. This could cost the customer anywhere between £500 – £900

Solution

With the Ultimaker, Sylatech can offer its customers a cost- effective prototyping solution. Whereas the tooling process would take about 3-4 weeks to complete, a 3D print can be undertaken within a matter of hours. The 3D printing process is popular with Sylatech’s customers due to the flexibility that it affords in the product design lifecycle. Thanks to Ultimaker, engineers can now have their designs transformed into a metal part within a number of days

  

Results

By 3D printing prototypes, customers have seen the requirement for tool modifications fall to less than 5%. Customers have an accelerated placement of tooling orders for production and a reduced level of tooling modifications. For Sylatech, the payback period for an Ultimaker machine turned out to be less than 3 months

 

 

Prototyping rapid, cost-effective sample parts with Ultimaker

Sylatech uses the Ultimaker to prototype sample parts for its customers, allowing them to test their designs without having to invest in tooling ahead of investment casting. This yields significant time- and cost savings as fewer tooling modifications are necessary.

 

“With the Ultimaker, we can use a 3D printed model for the creation of sample parts directly in our foundry process, without having to invest in tooling to create wax patterns. Through 3D printing we can significantly speed up our sampling process – clients can now get a prototype metal part in just seven days”

Gordon Gunn, Director of Marketing at Sylatech

Sylatech – Introduction

Sylatech is a design and manufacturing business with a heritage of 53 years in delivering precision custom engineering solutions for its customers, delivering high-quality systems and components to exacting standards. Sylatech’s service offering spans three core functions:

- Investment Casting Foundry – manufacturing precision metal parts through lost wax investment casting

- CNC Machining – comprehensive machining del iverJOH precision-engineered metal components

- RF and Microwave – custom design and manufacture of microwave systems, subsystems, assemblies,and components

Operating from the UK, Sylatech has a global customer base across multiple business sectors including Aerospace, Space, Defence, Medical, Automotive, and Construction.

Challenge

Traditionally, design engineers would not be able to thoroughly test the functionality of their designs without going down the route of investing in tooling for investment casting. This tooling process typically will take some 3-4 weeks to complete and Sylatech customers typically incur a cost of between £2,000 to £4,000 per tool. About 30% of the tools would require alteration due to customer design modifications. This could cost the customer anywhere between £500 – £900

Solution

With the Ultimaker, Sylatech can offer its customers a cost- effective prototyping solution. Whereas the tooling process would take about 3-4 weeks to complete, a 3D print can be undertaken within a matter of hours. The 3D printing process is popular with Sylatech’s customers due to the flexibility that it affords in the product design lifecycle. Thanks to Ultimaker, engineers can now have their designs transformed into a metal part within a number of days

  

Results

By 3D printing prototypes, customers have seen the requirement for tool modifications fall to less than 5%. Customers have an accelerated placement of tooling orders for production and a reduced level of tooling modifications. For Sylatech, the payback period for an Ultimaker machine turned out to be less than 3 months

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