Design for Manufacturing

Why Design for Additive Manufacturing (DfAM)?

sized+multi+jet+fusion+3d+printer.jpg

Additive manufacturing, also known as 3D printing, has rewritten the rule book for modern design and engineering. 3D printed parts are durable and inexpensive at low volumes. They:

  • Achieve previously impossible complex geometries

  • Do not require any tooling or other start-up expenses

  • Reduce initial production costs

  • Enables on-demand manufacturing

But the best design practices for traditional manufacturing technologies do not apply directly to additive manufacturing, and, in fact, can prevent users from getting the greatest value out of their 3D printing operations.

To Design for Additive Manufacturing (DfAM):

  • Start early in the Product Development cycle to include the benefits of AM

  • Factor in mechanical differences; 3D printing can produce shapes not possible with injection molding or machining.

    • Design latticed interior structures to reduce part weight and volume without sacrificing strength

    • Change part orientation to manipulate part rigidity levels

    • Think about ways to increase build density to increase part quantity and cost.

Design for Additive Manufacturing Workshop with HP and RapidMade

HP and RapidMade.png

Learn how innovative design and HP Multi Jet Fusion 3D printing can improve part quality, reduce costs, and speed up production.

Where: RapidMade | 15883 SW 72nd Ave, Tigard, OR 97224


When: Tuesday, April 9th, 2019 | 9AM - 4PM

Additive manufacturing is rewriting the rulebook for product design, which is why RapidMade is teaming up with HP for a free all-day event about design for additive manufacturing (DFaM) on the HP Multi Jet Fusion. Engineers and product designers are invited to join us for a special workshop led by additive manufacturing experts to learn more about how to get the most from 3D printing.

Here's what you'll learn: 

  • Why HP used the Multi Jet Fusion instead of injection molding to manufacture over 140 functional parts used in each of its new MJF 500/300 3D printers

  • Identifying applications for additive manufacturing across your product lifecycle

  • Training on the fundamentals of effective design for MJF

  • Design strategies for MJF process optimization

  • How the materials behave and what to consider when designing for each of them

  • New design paradigms for additive manufacturing and the required mindset change

  • Designing for value maximization (process and cost)

  • Training on the fundamentals of effective design for MJF

  • Live Design for Additive Manufacturing (DfAM) demo and application examples to inspire you

This free event will feature breakfast and lunch, as well as the opportunity to tour our facilities and consult directly with specialists from RapidMade and HP.

Don’t miss out on this exciting opportunity! Registration is limited, so click the link below to reserve your spot today.

REGISTER HERE

Agenda

8:30 – 9:00 AM Breakfast

9:00 – 9:15 AM Welcome & introduction

9:15 – 9:45 AM Multi Jet Fusion (MJF) basics

9:45 – 10:15 AM Why 3D & case study of HP's adoption of Multi Jet Fusion technology for production parts

10:15 – 10:30 AM Break

10:30 – 11:30 AM Deep dive on designing for additive manufacturing – strategy, guidelines, materials, considerations, machining & threads, bonding, process control, etc.

11:30 AM – 12:00 PM Cases for tooling and final part production – urethane casting, thermoforming, fluidics management, industrial applications & electric vehicle examples

12:00 – 1:00 PM Lunch

1:00 – 3:00 PM Applications discovery workshop

3:00 – 4:00 PM Consult with HP and RapidMade experts on your parts

We look forward to seeing you!

Can't attend?
Get in touch with our 3D printing experts here.