Sheet Metal Materials
Ultirapid offers precision sheet metal fabrication services, specializing in custom parts for various industries. We provide sheet metal cutting and forming services from prototypes to on-demand production of sheet metal parts. Start a one-hour CNC quote from a real engineer, and get your parts made.
- Sheet metal thickness ranges from 0.5 to 10mm.
- Aluminium, Steel, Stainless Steel and more.
- Fastest delivery time of 3 working days.
- Cost-effective solutions tailored to client specifications.
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3-5 Days
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Sheet Metal Materials In Process
Sheet metal materials creates strong, precise parts from thin metal sheets, ideal for chassis, enclosures, and brackets.Our sheet metal materials features an efficient online quoting system and unlimited supply capacity to ensure fast delivery. We use advanced press brake punches and die tooling to shape metals to your specifications.
Cutting
Our laser cutting service are able to deliver high-precision cutting and engraving on materials such as aluminum steel, coppe and more
Bending
Deliver accurate angles with our bending services, achieving a final product that fits within tight tolerances
Welding
If you need to create a joint on the Metal & alloy pieces for your project, the Welding process is the right choice!
Finishing
Our finishing services include powder coating, anodizing, and painting to enhance the appearance and durability of metal parts.
How does Sheet Metal work?
We provide laser cutting, stamping, welding for sheet metal service. As well as different kinds of post-process, such as brushing, sandblasting, anodizing, laser marking etc. The below-mentioned steps are involved in the sheet metal fabrication process:
Design and CAD Modeling
The sheet metal fabrication process starts with creating a 3D CAD model, which outlines the product’s size, material, and specifications. This detailed CAD model is a blueprint, ensuring the final part meets all design requirements.
Machining Process
After selecting the material, the metal sheet is cut using a laser, water jet, or shearing to ensure accuracy and maintain material homogeneity. The sheet is then bent using press brakes to achieve the required angles and curves, ensuring the part’s geometry matches the CAD design.
Material Selection
Material selection, such as aluminum, steel, or titanium, is crucial for enhancing product performance and durability based on the required strength, weight, and resistance. This ensures the part meets application demands effectively.
Finishing Options
Polishing or painting enhances the part’s appearance and provides rust protection, preventing corrosion and improving surface quality. Finishing must meet design requirements and ensure functionality.
Sheet Metal Meterial Useage
Sheet metal materials are thin sheet metal parts, which are parts that can be processed by stamping, bending, and stretching. A general definition is that sheet metal parts has constant thickness during processing.
Sheet metal materials processing includes traditional cutting, blanking, bending and forming methods and process parameters, as well as various cold stamping die structures and process parameters, various equipment working principles and operating methods, and new stamping technologies and other new processing technology. The processing of sheet metal parts is called sheet metal machining.
Materials of Sheet Metal Fabrication
Brass
Alloy:Brass-H59, Brass-H62, Brass-H59, Brass-H62, Brass-HA177-2, Brass-HMn58-2, Brass-HPb59-1, Brass-HSn62-1…
Finish Options:
A.Polishing, B.Grinding, C.Brushing, D.Laser Marking, E.Silk Screen, F.Transfer Printing.
Copper
Alloy:
T1、T2、T3、TU1、TU2b
A.Polishing, B.Grinding, C.Brushing, D.Laser Marking, E.Silk Screen, F.Transfer Printing.
Aluminium
Alloys:
AL5052-T651, AL6061-T651, AL 7075-T651, AL6082-T651…
A.Polishing, B.Grinding, C.Brushing, D.Sandblasting, E.Painting, F.Powder Painting, G.Anodizing , H.Hard anodized, I.Teflon Coating, J.Laser Marking, K.Silk Screen, L.Transfer Printing.
Stainless Steel
Alloys:
201, 303, 304, 316, 410, 420, 17-4PH…
A.Polishing, B.Grinding , C.Brushing, D.Sandblasting, E.Painting, F.Powder Painting, G.Passivation, H.Zinc Plating, I.Black & zinc, J.Teflon, K.Titanium Coating , L.Laser Marking , M.Silk Screen , N.Transfer Printing
FAQs About Sheet Metal Fabrication
What is sheet metal fabrication?
Sheet metal fabrication involves the process of cutting, bending, and assembling sheet metal to create various products. It includes techniques such as punching, stamping, laser cutting, and welding to shape and join metal sheets.
What types of materials can be used in sheet metal fabrication?
Common materials include aluminum, steel, stainless steel, copper, and brass. Each material has specific properties suited for different applications, such as strength, corrosion resistance, and weight.
What products can you create with sheet metal fabrication?
A wide range of products can be made, from simple brackets and enclosures to complex ductwork, electrical cabinets, automotive parts, and custom components for various industries.
How much will my sheet metal fabrication project cost?
Costs vary widely based on factors like materials, complexity, volume, tolerances, finishing requirements, etc. Most fabricators provide custom quotes based on your specific project details.
Do you offer available finishing?
What is your regular production standard of tolerance?
| Tolerance for Metal Parts | |
| ISO 2768-F | |
| Table 1 - Linear Dimensions | |
| Permissible deviations in mm for ranges in nominal lengths | Tolerance Class Designation (Description) |
| f (fine) | |
| 0.5 up to 3 | ±0.05 |
| over 3 up to 6 | ±0.05 |
| over 6 up to 30 | ±0.1 |
| over 30 up to 120 | ±0.15 |
| over 120 up to 400 | ±0.2 |
| over 400 up to 1000 | ±0.3 |
| over 1000 up to 2000 | ±0.5 |
| over 2000 up to 4000 | – |
| For nominal sizes below 0.5 mm, the deviations shall be indicated adjacent to the relevant nominal size(s). | |
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