Introduction to 3D Printing and its Service Provider Solutions

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Has it ever occurred to you that the 2D images that you usually see in picture books can become real in front of you?

3D Printing is a solution that can change concepts into modeling displays that are close to the original product by utilizing CAD Modeling.

The concept of 3D printing itself has been known for a long time, to be precise in the mid-1980s. Currently, 3D technology printing continues to develop and has become one of the supporting technologies in the world of architecture.

The First Pioneer of 3D Printing

The first 3D printing technology has been known since the mid-1980s. Initially, 3D printers were very large and only used for certain projects.

The first pioneer of 3D Printing was Mr Charles Hull. Charles W. Hull was born in Clifton, Colorado on May 12, 1939. He graduated from Engineering Physics at the University of Colorado in 1961. Until now he is known as The Father of 3D Printing.

First 3D Printing Technology

Previously, 3D printing was a big goods category, but with the rapid development of technology today, you can now find 3D printers as small as a microwave.

The discovery of the First 3D Printer machine was named by Charles Hull using the SLA(Stereolithography) method.

The SLA concept begins with the formation of layer-by-layer resin. SLA is the first 3D modeling technique and uses a resin material that is reactive to UV light.

Hull's first object was a small cup.

The SLA method was finally patented on August 8, 1984 with the title Apparatus for production of three-dimensional objects by stereolithography. Then on March 11, 1986, the patent US4575330A was issued, with Charles Hull as the inventor.

Types of 3D Printing

Stereolithography (SLA)

Stereolithography (SLA) is a technique for making 3D objects by dropping heated material layer by layer.

Selective Laser Sintering (SLS)

Selective Laser Sintering (SLS) is a technique for making 3D objects by dropping a hot liquid layer by layer.

Fused Deposition Modeling (FDM)

Fused Deposition Modeling (FDM) is a technique for creating 3D objects using the scattering of plastic materials.

This technique is the most cost-effective, and environmentally friendly, and doesn't take much time, but the resulting surface tends to be rough.

Digital Light Processing (DLP)

Digital Light Processing (DLP) is a 3D object modeling technique that uses liquid plastic materials that harden when exposed to light. DLP uses a layer projector with digital lighting that can print all layers.

Electron Beam Melting (EBM)

Electron Beam Melting (EBM) is an object modeling process that specifically uses metal materials. The EBM technique is carried out in a vacuum by spreading a layer of titanium, here the electron beam will melt the powder into a harder layer. Objects created using this technique tend to be strong and durable.

Multi Jet Modeling (MJM)

Multi Jet Modeling (MJM) is an object formation technique using an inkjet printer. A layer of resin powder will spray glue with various colors which will harden in one layer.

Understand 3D Printing Fillament Materials That Meet Your Needs

Previously, it was clear about the techniques or methods of 3D printing. Next, we will discuss what materials can be used for 3D printing.

ABS (Acetonitrile Butadiene Styrene)

Acetonitrile Butadiene Styrene(ABS) is a stable material against temperature and chemical exposure. This material is very suitable and can even be easily cleaned. Unfortunately, this ABS material is not easy to decompose naturally because it is a synthetic resin. ABS requires high temperatures, so the power used is also large.

PLA (Polylactic Acid)

Polylactic Acid (PLA) is a natural material, so it only requires a low defrost capacity and is unlikely to cause a fire to nearby objects. PLA materials melt easily, especially at very high temperatures. Avoid sun exposure to prevent the model's figure from flattening.

HIPS (High Impact Polystyrene)

High-impact polystyrene (HIPS) is a material that requires high temperatures with a flexible texture and is very strong compared to others. HIPS material can be an alternative to ABS which does not emit harmful fumes.

Nylon

Nylon is a strong and highly reliable material for creating 3D models. Until now, nylon has been widely used for textiles because of its excellent durability. Nylon is also stable at high temperatures and is easy to dye when needed. Unfortunately, nylon bends and wrinkles easily, which interferes with the printing process.

PVA (Polyvinyl Alcohol)

Polyvinyl Alcohol (PVA) is made from fiber an organic material and is easily decomposed without causing pollution like plastic. PVA material has the characteristics of being resistant to various solvents and oils, easily soluble in water, and does not pose a danger to users.

If you want to use PVA material, you should keep it away from those that have high humidity and also consider the costs used, because this product is quite expensive.

Glycol-modified Polyethylene Terephthalate(PETG)

Glycol-modified Polyethylene Terephthalate (PETG) is a chemically resistant material, has high resistance and is stable at high temperatures.

Unfortunately, if PETG is left under ultraviolet light, it will easily be damaged even though it is resistant to high temperatures.

Thermoplastic Polyurethane (TPU)

TPU material is flexible and resembles rubber and easily clots even though it is still in fiber form. TPU threads are often used to create certain layers of 3D models.

Due to its rubber-like nature, TPU does not break easily and because it is prone to lumps, problems may occur during operation. This TPU is difficult to polish because its texture resembles rubber.

Acrylonitrile Styrene Acrylate (ASA)

Acrylonitrile Styrene Acrylate (ASA) is a plastic material that is resistant to high temperatures, ultraviolet light, and exposure to chemicals.

Acetone is often used as a finishing step so that the surface is not rough.

3D Printing Technology as a Marketing

The role of 3D printing is very global, so it is not surprising that many potential businesses need 3D printing.

There are many types of 3D printing applications, such as architecture, interior design, visual communication design, fashion design, product design, corporate design, and factory design to create 3D prototypes.

3D Printing Making Providers and Services

Dynamism

Dynamism is the best website that sells and provides 3D printing products such as primary filament and primary colors, as well as prototyping materials to advanced technical materials.

Dynamism aims to meet various standard 3D Printing needs with Dinamismefan which offers high quality and affordable materials.

You can have your 3D printing product for your needs. By choosing one of the UltiMaker S7 products from Dynamism.

For more information please visit https://www.dynamism.com.

UPTIF

Uptive provides 3D Printing services that are experienced in the manufacturing industry, providing fast-handling solutions to achieve customer satisfaction.

UPTIVE is experienced in 3D printing services to traditional manufacturing, prototyping large-scale production runs, to offering step-by-step advice in developing a faster life.

For more information please visit at https://uptivemfg.com.