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Part optimization

Cleverly designed components increase cost efficiency.

Part optimization

What potential is hidden within your parts? Find out now in our workshops and seminars on parts design. Whether you want to manufacture parts more profitably, produce new parts, or start using new types of technology – the relevant expert knowledge will help you trim your parts for success, while saving money as well. Because cost-efficiently designed parts are the key to efficient manufacturing, require fewer process steps and reworking, and pave the way to networked production.

Cost-effective design

Save material, process steps and costs with the functional design of your components.

Apply your skills directly

Part optimization practice exercises on over 700 prototypes - and on your own components - for cost-effective part design.

New inspiration

Acquire rules of design for creative ideas and new solutions and train your focus on feasibility and cost-effectiveness.

Make use of experience

Experience the application, design and manufacturing possibilities for sheet metal and tubes in over 1,000 training courses.

Sheet metal part design

Lighter, cheaper, or more functional: How would you like your parts? When sheet metal parts have a well-thought-out design, this allows your machines for laser cutting, punching, or bending to reach their full potential – while saving on materials, costs, and effort.

Example: Optimized axis stop

The axis stop is conventionally produced out of a welded construction with a semi-finished product and milled parts. The many work steps are both time-consuming and cost-intensive. The new design made of two sheet parts reduces the number of parts and thus the joining processes and material usage.

Part optimization, sheet metal part design, example

1. Sawing

...all components to size.

2. Milling

... the contact surfaces, oblong holes and stepping.

3. Drilling

... all holes in the components.

4. Welding

... all four components.

5. Laser cutting

... allows for any desired geometries to be cut into sheet metal, and creates bores.

6. Tapping

... for more strength compared to cut threads.

7. Bending

... replaces welding and decreases the number of parts.

8. -46% in costs

... with the new design

Additional examples

Laser welding part design

A laser welding system allows you to manufacture for much less than with conventional welding, as long as you identify suitable parts and make these fit for laser welding. You can receive design and manufacturing-related tips and tricks from us.

Example: Optimized cover

The conventional cover for electronic components such as electrical cabinets must be sealed and free of distortion. This is the crux with conventional TIG welding, as it results in distortion which must be corrected. The design which is suitable for laser welding replaces multiple work steps: Both seam preparation and corrections are no longer necessary, as the lower heat input barely produces distortion.

Part optimization, laser welding part design, example

1. Laser cutting

... including free corner cutting.

2. Bending

... ten bends.

3. Welding

Supplementary wire and the weld seam thickness compensate for bending tolerances.

4. Grinding/polishing

... as manual work.

5. Laser cutting

... three parts from one sheet.

6. Bending

... eight bends.

7. Laser welding

... with minimal distortion and high optical quality.

8. -30% in costs

... with the design suitable for laser welding

Additional example

Fixture design for laser welding

Fixtures guarantee quality and more reliable processes during laser welding. However, what even experienced practitioners often don't know is that fixtures can be cheaper and more flexible when they are produced from single sheet metal and tube parts. Additionally, you can reduce production tolerances during welding. When are you going to make work easier for yourself?

Example: Optimized fixture made of sheet metal for laser welding

A conventional fixture for laser welding is usually made from a solid milling block. Clamping fixtures made from sheet metal are economically superior to conventionally milled fixtures. This is because they lower manufacturing costs as well as weight. They also allow for additional functions to be integrated and increase heat dissipation.

Part optimization, sheet metal fixture design example

1. Sawing

... the raw material of the rod to size.

2. Milling

... all reference surfaces and mounts as well as all through holes and threads.

3. Finishing

... by deburring and anodizing.

4. Laser cutting

... any desired geometries and holes.

5. Assembling

... and welding single parts.

6. -17% in costs

... with the sheet metal design.

Tube part design

Tubes and profiles are used everywhere – from machine and system construction all the way to the furniture industry. Laser tube cutting saves entire process steps, which allows you to save money. Secure your share of the growing market for laser-cut tubes. You will learn exactly how this works with the appropriate advice.

Example: Optimized cantilever

In conventional manufacturing, three parts are adjusted to one another in individual process steps – which is time-consuming and logistically challenging. The cantilever is now cleverly manufactured from two identical tubes with identical shape and dimensions. Both parts are adjusted to one another on a laser tube-cutting machine and then connected together.

Part optimization, tube part design example

1. Sawing

... all components to size.

2. Milling

... the contact surfaces, oblong holes and stepping.

3. Welding

... all three components.

4. Deburring

... sawed and milled areas.

5. Laser tube cutting

... the entire assembly with just one clamping.

6. Assembling

... and welding the two single parts.

7. -83% in costs

...through clever connector design.

Additional example

Fixture design for arc welding

Would you like to increase the utilization of your machines and produce welded assemblies in small lot sizes cost-effectively and with the same high quality? Then you should produce fixtures from sheet metal and laser-cut tubes in the future. It's easier and cheaper than you think.

Example: optimized fixture made of tubes for arc welding

The numerous milled parts in the conventional fixture are both time-consuming and cost-intensive. The costs of chipping manufacture are high and fits for pins and threads are necessary. The assembly must be welded when it is lying down. A tube plug-in design replaces the entire milling block. Its advantages: fewer parts, less effort. The vertical design of the fixture also makes it easily accessible for manual as well as automated arc welding, e.g. on a TruArc Weld 1000.

Part optimization, tube fixture design example

1. Sawing

... raw materials, various semi-finished products and dimensions.

2. Milling

... all surfaces which are to be bolted or joined.

3. Drilling

... precision fits, through holes and threads.

4. Laser tube cutting

... parts including all inner geometries and joining aids in pin form.

5. Assembling

... and welding the two single parts.

6. -80% in costs

... with flexible tube design.

Go to the training calendar

Take a look at TRUMPF's digital learning platform! It is now even easier to gain know-how about TRUMPF technologies and machines. Book your training now and use the newfound knowledge to your competitive advantage.

Find out more

The following training types are offered

Seminar

Designers and product developers from various companies can take part in our seminars. You will receive input on manufacturing knowledge, tools and the current state of the art. Together with the other  participants, you will develop design rules and use prototypes to implement your new knowledge of part design and optimization. This means that nothing can stand in the way of more cost-effective production with process reliability. 

Workshop

In our customer-specific workshops, the same training content is conveyed as in the seminars. The special feature: The group of participants is internal to the company and the group learns using their own components, which are optimized during  the workshop.

Part consulting

In a direct exchange between you and the TRUMPF consultant, you will discuss your specific assembly or fixture in detail with a focus on your individual requirements and framework conditions. Together you will optimize  the design to ensure cost-effective production with process reliability.

Part optimization – a contribution to more sustainability in your production

The product's carbon footprint is 90% determined by the material  processed. With the support of our experts, you not only save money by using  less material, but at the same time you make a significant contribution  to more sustainability in your production.

Optimate app as real-time digital support

The cloud-based Optimate app is the perfect complement to our training and consultations: It checks components in real time for  design optimizations, determines their costs and shows alternative design options. Users simply need to upload the CAD data of their parts  to the online platform.

Find out more

Which part are you starting with?

The first step is very easy: Talk to us. Together we will come up with ideas for how you can take full advantage of the potential within your parts.

Get in touch now

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