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Product Prototype Development

Product Prototyping – 3D Printing, CNC Machining & Plastic Injection Molding

Prototype development of your conceived product is vital. A product prototype is the first physical form of an imagined product idea. It enables the inventor to actually touch and feel the perceived product. It also allows the inventor to perform various tests and make necessary changes to make the final product better. Not to forget, a product prototype is a proof of concept, enabling the inventor to pitch to potential stakeholders about the conceived product and attract more funds for the mass production.

When it comes to product prototype development, it is helpful to consider the various tools available and the different processes used for making different parts of a conceived product. Product prototype development can be carried out using one of the following three methods: 3D printing (additive manufacturing), CNC machining (subtractive manufacturing), and plastic injection molding.

3D Printing

3D printing or additive manufacturing is one of the rapid prototyping techniques that constructs 3D objects by successively depositing material in layers such that it becomes a predefined shape. In the past few years, contemporary 3D printing has been very successful for rapid prototype development, but it is gradually starting to make its impact on the product manufacturing realm as well.

CNC Machining

CNC machining or subtractive manufacturing is a technique that constructs 3D objects by successively cutting away the material from a block of solid material. Typically, a CNC machine is employed in order to cut away the material and give a definite shape. Modern CNC machines utilize several tools and cut at three axes to nine axes such that they minimize the need for operators to flip the block. One of the cardinal benefits of CNC machining is the ability to construct predefined metal parts swiftly and accurately. 3D printing, in the case of metal, does construct parts accurately, but it is relatively slower than CNC machining. Therefore, for those product prototypes that require both plastic and metal parts, it is useful to use 3D printing for plastic parts and CNC machining for metal parts.

Plastic Injection Molding

Plastic injection molding is a popular technique that constructs an object by injecting the material, with high pressure, into a mold. Once the product design engineers finalize the product design, definitive molds are made from either steel or aluminum, which are then fitted on the injection molding machine. The material is then fed into the machine, which passes through the mold and ejects as the predefined shape.

Which Method Should You Employ?

Each method is better suited for different situations. For instance, suppose you want to build a single product prototype just to get the feel of your conceived idea, run basic tests, and/or prove your concept to potential stakeholders. In such a case, if it is all plastic, you can employ 3D printing. If it is all metal, you can employ CNC machining. If it is an amalgamation of both plastic and metal, then you can employ 3D printing to produce plastic parts and CNC machining to produce metal parts. You can then assemble the plastic and metal parts to form the prototype and do whatever you wish to do with the prototype.

Now, suppose you want to create several identical product prototypes, which contain both plastic and metal parts, for consumer testing and market research. In such a case, you will need to employ plastic injection molding for plastic parts and CNC machining for metal parts. Plastic injection molding enables you to produce a moderate quantity of parts quite swiftly and economically. Once you have both the plastic and metal parts, you can assemble them to form several identical prototypes, which you can use for consumer testing and market research.

Despite the popular methods available, product prototype development can be tough, especially if you do not have a definitive product design for your conceived product. Besides, testing product prototypes and making them better are also some of the difficult challenges, which you may not be able to face it on your own. For that reason, it is sensible to partner with a product development company that employs different rapid prototyping techniques, including 3D printing, CNC machining, and plastic injection molding.

GID Development Corporation is a leading product design and product development company in the US. They offer quick and economical product design, rapid prototyping, product development, and other product fulfillment services to inventors in the US as well as across the globe. When it comes to product prototype development, experienced industrial engineers at GID Development Corporation first utilize the 3DEXPERIENCE platform from Dassault Systèmes, which includes tools like CATIA V6, 3DVIA, BIOVIA, SOLIDWORKS, etc., to create and test product designs virtually. After achieving a definitive product design, the skilled industrial engineers employ 3D printing, CNC machining, plastic injection molding, or a combination of these methods to produce accurate product prototypes. The engineers at GID Development Corporation also have the experience and in-depth knowledge that help them test the prototype and make it better.

So if you need help with product prototype development, just contact GID Development Corporation. Whether it is a simple prototype development, like for sports products, or an intricate prototype development, like for complex electromechanical products or medical products, GID Development Corporation will “GET IT DONE!”

To learn more about the leading product design and product prototype development company in the US, GID Development Corporation, visit https://www.gidcompany.com/.

Have any queries regarding product prototyping? Just call Jim Grimes at 714-323-1052 between 8:00 AM to 5:00 PM PST, for a 15-minute FREE telephonic conference. He will answer to various questions regarding rapid prototyping, 3D printing, CNC machining, and plastic injection molding.

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Product Prototype Development

Rapid Product Designing & Rapid Prototyping – Advantages

New product design and product development, both have come a long way today. Traditionally, product designs were hand drawn. Now, product designers are creating detailed, clear product designs using special-purpose computer applications, like Dassault Systèmes’ 3D EXPERIENCE 2016, SOLIDWORKS, and 3DVIA among many others.

For product development, specifically the product prototype development, engineers nowadays are utilizing revolutionary additive manufacturing (popularly known as 3D printing) processes, which include selective laser melting, fused filament fabrication, direct metal laser sintering, and stereolithography to name a few.

These modern rapid product designing and rapid product prototyping techniques are geared toward the swift, precise, and effortless development of new products. More importantly, with these state-of-the-art techniques, it is possible to minimize the cost of new product development! Let us look at some of the advantages that these computer-assisted 3D product designing and 3D printing techniques offer.

  1. These contemporary techniques radically minimize the time of turning a product concept into reality. Simple product concepts can be brought to life in a matter of days, and complex product concepts in a matter of a few months. Therefore, inventors can quickly realize their dreams of swiftly getting groundbreaking products into the market and selling them to make profits.
  2. These techniques help save money. Creating product designs using computer applications means getting definitive designs with a minimum number of attempts; hence, it avoids redundant costs of creating multiple product designs. 3D printing, on the other hand, eliminates the need for plastic product manufacturing tools or other molding tools needed for building product prototypes. This elimination of tools substantially saves money for the inventors.
  3. The modern techniques help mitigate product redesigning risks. Since the product designs are created virtually on the computer, they are, in most instances, ideal in every manner. Even if they are not, or if any changes are required, the product designers can quickly and effortlessly modify or change the product designs. These new product designs are then efficiently and economically 3D printed, saving time, money, and more importantly, the efforts of doing everything from scratch for the inventors.
  4. The techniques facilitate in the creation of the definitive product. Because 3D product designing is carried out virtually, using special computer applications, the chances of leaving out any product construction requirements are almost next to nothing. In the virtual world, the product designers and product developers can test almost every aspect of the conceived product. This way, they can add, remove, and experiment with the various features of the imagined product without actually creating any mockup or prototype!
  5. These techniques allow quick creation of product prototypes. Once the product designs are ready, they will be fed to a 3D printer (it’s a kind of an industrial robot). The 3D printer is then configured according to the required specifications. Once the 3D printer is configured, it will then extrude material into the desired shapes. The entire process, from feeding the product design into the 3D printer to the extrusion of the material into the desired shapes, is substantially swifter than injection molding techniques.
  6. These breakthrough techniques enable the creation of custom shapes. The 3D printer extrudes the material into desired shapes or geometries based on the instructions received from a computer. In simpler words, a 3D printer prints a material, instead of ink, based on the design it is provided. Ergo, it is possible to create custom, intriguing shapes effortlessly. This advantage of these techniques is very beneficial when it comes to medical device product development as well as electromechanical product development.
  7. These techniques make it possible to develop product prototypes using any material. Not only polymer and its variants, but 3D printers are capable of accepting and printing materials like rubber, ceramic, edible materials, and almost any metal alloy!

These were just some of the many advantages that rapid product designing and rapid product prototyping techniques offer. They are just ideal for new product design and new product development, especially product prototype development.

If you are an inventor and want to realize your product idea with these revolutionary product design and product development techniques, then partner with GID Development Corporation. A leading product design company in California, USA, GID Development Corporation provides rapid product design, rapid prototyping, rapid product development and other new product fulfillment services. They even have the ability to develop CNC-machined prototypes using different plastics and metals. This ability of GID Development Corporation comes in very handy, especially when the raw materials for rapid prototyping processes are not suitable or durable enough for the conceived product.

Whether you have a revolutionary idea for a medical device product, sports product, electromechanical product, a product with embedded software, a product with electronics, or any unique product, the product development company in California, GID Development Corporation will absolutely “GET IT DONE!”

Learn more about GID Development Corporation: https://www.gidcompany.com/

Have any queries regarding rapid product prototyping or 3D printing? Just call Jim Grimes at 714-323-1052 between 8:00 AM to 5:00 PM PST, for a FREE 15-minute telephonic conference. He will answer to various questions regarding product design, product prototyping, and product development.

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Plastic Product Manufacturing Product Prototype Development

Importance of Product Prototyping in Plastic Product Manufacturing

The field of plastic product manufacturing has marked a remarkable growth in the last few decades. It involves all forms of plastic production, including extrusion, injection molding, cast molding, and calendaring. Manufacturing plastic products with the help of a professional plastic product manufacturer is profitable and offers a sustainable cutting edge in the business competition. Not only, the products manufactured from plastic are light in weight and cost-effective in producing, but are also durable, safer, flexible, and are aesthetic in appearance.

We are GID, a Plastic Product Development Company located in California, and since our inception, we have witnessed a promising growth of plastic products in different spheres of activity with an ever-increasing per capita consumption. With uninterrupted advancements and developments in manufacturing technology, processing machineries, and cost-effective manufacturing, plastic is the fast replacing the typical materials in different segments.

However, unless you have a thorough understanding, a plastic product manufacturing is not at all an easygoing process. It involves many calculative manufacturing phases, and a miscalculation can lead to an unimaginable tragedy. According to the product development experts at GID, all the hazards can be minimized with the help of product prototyping. A product prototype development is done to help make the modifications and fixes on a product before the final product is mass-produced.

GID states top advantages of prototyping in the field of plastic product manufacturing, and they are as follows:

1.   Allows a Business Owner to Preview the Final Product

As we know, a prototype is nothing but a fully functional, working model of a product to be developed; it includes all the features and functionality to a larger or smaller scale. Prototype development in the plastic manufacturing industry is extremely important as it offers a general picture of products that are still in the beta stage. It allows you to see, touch, test, and discover what works and what doesn’t. A prototype allows entrepreneurs, financiers, and end-users to visualize the product quickly and communicate what insights they have for the final product. You can conclude whether the prototype meets the requirements of potential users and then make modifications before the final product is ready.

2.   Controlled Manufacturing Cost and Time

A product prototyping allows a business owner to test his/her concept of product and discover any flaws. Business owners have the opportunity to correct these imperfections, or emerge with solutions for improving the product. This step reduces the risk of your product failing; thereby, drastically reducing manufacturing cost and time.

3.   Generates Curiosity among the End-users and Financiers

When an entrepreneur develops a prototype, investors and end-users get the opportunity to explore it and give suggestions. Consumers can test the features and functionality of the plastic product and give their valuable feedback. In this way, entrepreneurs have a chance to improve their product and shape it as per customer’s requirements.

Apart from the above-mentioned advantages, a product prototype development in the plastic product manufacturing allows an entrepreneur to easily adjust a product design and fix some features of the products. Prototyping together with the injection molding can really benefit the plastic industry in countless ways.

To know more about plastic product manufacturing at reasonable rates, feel free to contact GID at www.GIDCompany.com. GID is a plastic product manufacturer who creates a variety of rapid plastic prototypes and plastic products for different segments of industry. To talk to product manufacturing experts or to share your concept, call them at 714-323-1052.