Quality Rapid Prototyping Service
Quality Rapid Prototyping Service, we specialize in the production of high-quality, low-cost prototypes. With a range of technologies and services, we are the perfect one-stop- shop for all your rapid prototyping needs.
At Star Rapid, we specialize in the production of high-quality, low- cost prototypes. With a range of technologies and services, we are the perfect one-stop- shop for all your rapid prototyping needs. When you’re ready, we also provide low- volume manufacturing of 100, 000+ parts. Continue reading to learn more about the rapid prototyping process or send your 3D design file to our international team of engineers for a free quote.
What Is Quick Prototyping?
Fast prototyping involves specialized production techniques for making high-quality physical models of a 3D design idea. Prototypes are useful for design improvement, as stepping stones to full creation or for engineering testing. They are meant to be quick and economical, without the need intended for the investment in hard tooling. Many of our clients need to produce a physical part quickly in order to validate a style or to capture a fleeting sales opportunity.
Advantages Of Making A Prototype
How can partnering with Star Quick to quickly manufacture a prototype help you and your business? Here are just some of the ways:
Show your customers and investors a physical model of your product
Demonstrate the appearance, dimensions and features of your product
Test the market with your product before production
Save time and money by identifying and reducing style flaws
Improve and streamline the creation process
Create multiple versions with different colors, surface textures and finishing processes
Popular Rapid Prototyping Services
Speedy prototyping is the process used to generate three dimensional models that do not require any machining or tooling. Instead, it makes use of cutting edge technology that allows a physical object to be formed by adding a material layer simply by layer until the desired shape is achieved. This allows more flexibility than machining because the complex model designs usually do not suffer any limitations during the production. Fast prototyping helps engineers and item designers to generate 3d models quickly and accurately. Some popular rapid prototyping solutions are examined below:
Types of development: There are two basic types of prototype developing – additive and subtractive. Subtractive procedure involve older techniques and additive procedure such as THREE DIMENSIONAL printing is relatively newer and they work by creating coating upon layer prior to part is finished.
CNC precision machining
3D Printing: It is one of the latest processes available. It involves ingredient process layers of material, usually a plastic or a photopolymer, are built up one at a time over several hours to create parts. Some printers can even use real metal.
Stereolithography (SLA): It really is among the oldest and most popular quick prototyping methods that offer a good level of strength, surface area detail and price. This additive method entails a vat of liquid photopolymer. A laser system cures the appropriate sections of each coating.
Selective Laser Sintering (SLS): This process is usually more expensive and parts often have a rougher finish than SLA but there are a wider range of materials available, including metallic, plastic material, ceramic and glass.
Urethane Castings: Once multiple prototypes are required, it is sometimes more economical to have the parts molded using a urethane casting mode. A master component is usually made using SLA and then a silicone RTV mold is created around this. Then the castings are made from a urethane or perhaps polyurethane. These urethanes comes in wide variety and colors.
CNC Machined plastic-type: Usually CNC mills makes parts using metallic such as for example steel or aluminum, but they can also be utilized to make model parts or perhaps low quantity parts out of many different kinds of plastic.
Speedy prototype service allows even more versatility than machining and use a variety of components to create different 3d objects. A common materials applied is definitely prototyping wax which is usually ideal when engineers and designers need small quantities of throwing parts to produce intricate patterns without