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How Can You Work with Your 3D Printing Machine?

There are many instances that people find themselves struggling with gizmos and technology, a 3D printing machine is not an exemption to this.

3D printing is sometimes being referred to as additive manufacturing. This is actually a term that best describes how a technology like this will help you create objects you require to have for a project.

How Can You Work with Your 3D Printing Machine?

The word “additive” here pertains to the successive augmentation of thin objects or components. They’re so small, about 16 to 90 microns in size, and they will be used as building blocks and will help in creating an object.

In general, all 3D printing techniques are just the same in principle. They help you create or construct an object, little by little and layer by layer. By this measure, it is much easier to create your complex designs come to life.  

What is Involved in a 3D Printing Machine?

The processes involved in the use of a 3D printer can be summed up in the following manner. Here are the main steps to know if you will work on one:

First Step

Preparation. You need to make the right preparations before you proceed to the printing proper. Make sure you have a 3D file of your object (this is the subject you want to have in print). You can make use of several design softwares for this purpose, typically the CAD software system.

In the absence of an application software or if you are not well-versed in such programs, a good and practical alternative to consider would be 3D scanners. Others would simply opt to download their object from an online marketplace.

As soon as you have your 3D file on hand and is ready for printing, proceeding to the second step is your next course of action.

Second Step

This involves the actual process of printing your object. Of paramount importance before you go further is for you to determine the type of material to use. It should help you achieve the properties that you want to see coming to life in your object.

There are various materials that can be used for 3D printing, and the available choices here is indeed very broad. Your range of available choice would include plastics, resins, ceramics, textile, metals, food, glass and even lunar dust can be utilized for this purpose, too.  

Aside from which, these materials at your disposal give you more  room for various finishing options. This will help you achieve that exact design that you conceived in your mind. When it comes to using a glass material for 3D printing purposes, it is not a viable option just yet. It is still under development phase.

Third Step

The finishing process is the final and the third step. This final phase in 3D printing involves the use of choice materials and specific skills. Soon after your object is first printed, you will not want to call it “mission accomplished” or you would not deliver it yet until you have it sanded and its surface refined, painted, or lacquered.

3D Printing Online Quote here

Conclusion.

Perhaps 3D printing is among the most dynamic of industries we have today. This can be attributed to the incessant wave of improvement and positive changes involved in this technology and its processes. With the use of innovative hardware and the increasing number of materials that can be utilized for this purpose, we can hope to continuously create custom objects or parts for various industries and for different uses.   

How can water cut through a hard material

Water may appear so soft and delicate, but it is one of the strongest forces of nature. With a certain amount of pressure, along with unique tool, water can cut through almost anything with superior smoothness and precision. Machine shops, building companies, and other business use pressurized water to cut metal, stone, granite, marble, wood, plastic, stainless steel, and other materials. True enough that when you get water at a certain force or pressure, it can cut through almost anything. This technology is called waterjet cut. A waterjet cutting machine is used in many shops and factories for manufacturing, construction, and designing.

Waterjets are first used in the mining industry back in 1852 in California. However, they used low-pressure waterjets. High-pressure waterjets were not used for mining until 1960s. In the 1900s, people were already using steam and hot waterjets for cleaning. Waterjets as well as abrasivejets are used for cutting in 1980s.

 

Cutting Metal

Using water to cut through metal utilizes a very narrow nozzle with a jewel, usually sapphire. The pressurized stream of water passes through this tiny, jeweled nozzle at an ultra-high pressure. Many types of cutting methods and process are available on the market and each has its own advantages and disadvantages. Among these cutting methods, waterjet has the most benefits. Because waterjet uses only the power of water, it does not overheat and it never gets dull like other metal cutters.

Back in the day, one can only cut one piece of metal at a time using a saw or other metal cutting devices. This traditional cutting method is expensive, labor-intensive, and time-consuming. Today, we now have waterjet cutting technology that is controlled by computer, which is able to cut many different materials, both soft and hard. Waterjet cutting can be pure waterjet or abrasive waterjet cutting. The two types are basically the same, except for the fact that the abrasive waterjet uses an abrasive to speed up the cutting process.

 

Waterjet Cut

A waterjet is capable of cutting a pile of different materials that is up to four inches of thickness. This cutting method doesn’t use heat, it is odorless and dust-free. Waterjet can slice a material as thin as five thousandths of an inch. Furthermore, waterjet is a single cutting process, which is it extremely precise and smooth, saving production costs such as materials, labor and machinery.

Cutting is performed with the material being cut a little bit submerged in water, reducing noise and splash. With a pressure of the water as anywhere from 20,000 to 55,000 psi or pounds per square inch, and being forced through a tiny, jeweled orifice with a size of 0.010″ to 0.015″ in diameter, you could expect that water can cut through hard materials.

Where to buy: water jet for sale