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Are you interested in learning more about Electron Beam Melting (EBM) 3D printing technology?  In this blog post, we'll take a deep dive into EBM, a metal 3D printing technology that uses an electron beam instead of a laser to melt metal powder and create complex shapes layer by layer. EBM is derived from the selective laser sintering (SLS) method, which uses a powder bed fusion (PBF) approach. In EBM, a high-energy electron beam is directed onto a bed of metal powder, selectively melting the powder to form a solid part layer by layer. This process is repeated until the final product is complete. EBM has several advantages over other metal 3D printing technologies. Firstly, it is able to work with a wide range of alloys, including titanium and chromium alloys. This enables the production of parts with high density and superior mechanical properties, including strength and durability. Secondly, EBM is faster than other metal 3D printing methods. However, there are also some limitati

Mock-ups are full-scale models used to evaluate the design, shape, functionality, and productivity of a product. They are typically created before mass production to minimize costs and reduce risks. In this article, we'll take a closer look at what a mock-up is, the process of making a mock-up, and the different types of mock-ups. What is a mock-up? A mock-up is a static model made in the same form as the product that will be mass-produced and sold in the future. It reflects the product's concept and is often used for market research, exhibition display, risk reduction for mold production, and patent registration. Mock-ups are commonly used in various fields such as electronics/telecommunications, medical devices, sporting goods, automobiles, and toys. Types of mock-ups Mock-ups can be divided into two types: design mock-ups and working mock-ups. Design mock-ups are made to confirm only the external shape, while working mock-ups are made to test assembly and operability. Soft m

If you're looking to invest in a 3D printer, understanding the different types of nozzles available can help you choose the right one for your project. In this post, we'll discuss the three main types of 3D printer nozzles: Mendel-style, Cartesian-style, and Delta-style. Mendel-style nozzles are the most commonly used and are ideal for personal printing projects. They operate by lowering the bed along the Z-axis while the nozzle moves in the X and Y directions to create the desired shape. The axis is controlled by one or two motors, allowing for independent movement and faster speeds. Mendel-style nozzles can be further divided into two types: one where the extruder is attached to the head, and the other where the extruder is located elsewhere. The former has a heavier head that can slow down print speed, while the latter eliminates the weight and space constraints of the head, but can lead to filament detachment issues. Cartesian-style nozzles operate on three axes, X, Y, and

Are you looking for a professional 3D printing company in South Korea that can create cost-effective prototypes for your product development process? Look no further than Get3DPrintQuote, located in Gyeongsangnam-do. Our company specializes in utilizing various layering processing technologies, including FDM and SLA, to provide high-quality results for a wide range of applications. We understand that the choice of output method depends on various conditions, such as the materials used, the shape, and the required precision for your product development. At Get3DPrintQuote, we offer prototyping services to verify your product design and development, demonstrate performance, and perform testing in various fields. Our ultimate goal is to minimize the modification process that can occur during mass production and prevent various variables that may occur during the production process. In addition to prototyping services using 3D printing technology, we also support various model works, such

SLA 3D printing, short for Stereo Lithography Apparatus, is one of the oldest and most popular 3D printing techniques available today. This printing technique is known for its high speed and precision compared to other methods such as FDM. SLA printing uses a liquid photosensitive resin that solidifies when exposed to light. This method is widely used in various fields, including the automotive, machinery, and medical industries, among others. There are different types of resins that can be used in SLA printing, each with its own unique properties. Here are some of the common resins used in SLA 3D printing: General-purpose resin: This is a standard resin that is commonly used in SLA 3D printing. It is ideal for creating models with fine details and smooth surfaces. Flexible resin: This resin is ideal for printing objects that require a certain level of flexibility. It is commonly used in applications such as the production of phone cases and other accessories. Rigid resin: This resin i

Both Toronto and Vancouver are two of Canada's iconic cities, world-renowned for technological innovation and cultural arts. In this article, we will compare how 3D printing technology is being used in the two cities. medical field Both cities are utilizing 3D printing technology in the medical field.  Toronto is focused on making custom prosthetics and medical braces, and is developing technology to help doctors treat patients, such as creating manikin for preoperative simulation.  Vancouver, on the other hand, is using artificial intelligence-powered 3D printing technology to create complex medical devices such as medical implants. architecture and interior design Both cities are utilizing 3D printing technology in the fields of architecture and interior design.  Toronto makes the design process more efficient by enabling rapid prototyping and modification of building structures, interior furnishings, and more.  Vancouver, on the other hand, is focusing on creating the architectu

In a previous article, we explained why 3D printing is so important in Canada. In this article, we'll take a look at how 3D printing is being used in Canada's key industries. aerospace industry Canada is one of the internationally recognized leaders in the aerospace industry. 3D printing technology has revolutionized the manufacturing of aerospace components. You can reduce the weight of complex-shaped parts, minimize material usage, and reduce manufacturing time. This contributes to improving aircraft performance and reducing costs. automotive industry Canada's automotive industry has strong global competitiveness. 3D printing is contributing significantly to manufacturing automotive parts, shortening the development process and reducing costs. In addition, it is being utilized in custom vehicle design and production, creating a new market. energy industry Canada is one of the world's largest energy producers, with strong oil, gas and renewable energy industries. 3D pr

The melt extrusion method (ME) is a 3D printing technology that involves melting and spraying a solid material with a high-temperature nozzle. The most popular 3D printing technologies that utilize this method are Fused Deposition Modeling (FDM), Fused Filament Fabrication (FFF), and Plastic Jet Printing (PJP). ME is widely used for personal 3D printing due to its low cost and convenience. It allows for the creation of prototypes that accurately reflect design drawings, allowing for evaluation of the product's shape, design, function, and productivity before mass production. The ME method involves melting a solid filament in a high-temperature heating core and extruding it through a nozzle onto a bed, where it is stacked layer by layer to create a shape. There are various types of mock-ups, including soft mock-ups, design mock-ups, and working mock-ups, classified by their intended use and whether they are designed for evaluating the product's exterior design or creating a comp

Aluminum 3D printing Aluminum is a lightweight, strong and corrosion-resistant metal. These characteristics make it widely used in the aerospace and automotive industries. Aluminum 3D printing has many advantages compared to traditional production methods. For aluminum, fabrication speed and cost are relatively high when fabricated by traditional production methods such as casting or CNC machining. On the other hand, 3D printing technology allows for more efficient production. DMLS (Direct Metal Laser Sintering) DMLS is a direct metal laser sintering technology, in which metal powder is heated and sintered with a laser. This technology provides high precision and high production speed. In addition, complex structures that are difficult to fabricate using conventional casting methods can be fabricated. However, the downside is the high initial cost of the technology and the relatively low density of the sintered parts. SLM (Selective Laser Melting) SLM is a selective metal melting tec