Additive Manufacturing vs Subtractive Manufacturing: In-depth Comparison & Differences

Additive Manufacturing vs Subtractive Manufacturing: In-depth Comparison & Differences

文本 Additive Manufacturing vs Subtractive Manufacturing: In-depth Comparison & Differences Additive manufacturing (AM) and subtractive manufacturing (SM) are two distinct processes that are used to fabricate three-dimensional (3D) products. AM involves the building up of 3D components from a computer-aided design (CAD) model, while SM involves the cutting away of materials from a block or sheet in order to achieve the desired shape. Both processes have their advantages and disadvantages, and it is important to understand the differences between them in order to determine which process is best suited to your needs. What is Additive Manufacturing? Additive Manufacturing (AM) is…
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Brass Grades Suitable for CNC Machining: 18 Options to Choose From

Brass Grades Suitable for CNC Machining: 18 Options to Choose From

Brass Grades Suitable for CNC Machining: 18 Options to Choose From CNC machining is a manufacturing process that uses computer-controlled cutting tools to shape the material into a desired form. It is often used in the production of metal parts such as brass. Brass is a popular choice for CNC machining because of its strength, durability, and ability to be formed into intricate shapes. However not all brass grades are suitable for CNC machining – some are too soft or brittle, while others may not have enough corrosion resistance. In this article, we will discuss the different brass grades suitable…
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What Are the Different Types of Brass: Specifications & Properties

What Are the Different Types of Brass: Specifications & Properties

What Are the Different Types of Brass: Specifications & Properties Brass is an alloy made up of copper and zinc in varying proportions. The combination of the two metals creates a material that has excellent mechanical properties. It has good strength and ductility, making it resistant to corrosion and ideal for many different applications. So what are the different types of brass? In this article, we'll look at the different types of brass and discuss their specifications and properties. Different Types of Brass The most common types of brass are C37700, C38500, and C46400. Each type has its own unique…
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Laser vs water jet vs plasma cutting

Laser vs water jet vs plasma cutting

Laser vs Water Jet vs Plasma Cutting: What Are the Differences? Choosing the right cutting technology can be a daunting task. With so many options available, it can be hard to determine which one is best for your particular project. In this article, we’ll compare three of the most popular cutting technologies: laser cutting, water jet cutting, and plasma cutting. Laser Cutting Laser cutting is a technology that uses a focused beam of light to cut through materials. The beam of light is created by a laser source and is directed at the material with the help of a computer.…
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Overmolding material compatibility: a quick guide

Overmolding material compatibility: a quick guide

Overmolding Material Compatibility: A Quick Guide Overmolding is a widely used manufacturing process used to combine two or more materials to form a single part. This process has become increasingly popular for its ability to create parts with superior strength, improved ergonomics, and enhanced aesthetics. But when it comes to over-molding, one of the most important considerations is material compatibility. To ensure the best results, it’s important to understand what materials are compatible with each other and how they will interact. What is Material Compatibility? Material compatibility refers to the ability of two materials to bond with each other in…
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Creating Complex Parts with Over-molding and Insert Molding

Creating Complex Parts with Over-molding and Insert Molding

Creating Complex Parts with Over-molding and Insert Molding Overmolding and insert molding are innovative injection molding techniques for producing multi-material composite components with enhanced properties and geometries. By combining dissimilar materials into one part, over-molding and insert molding allows functions like electrical conductivity, wear resistance, thermal insulation, shielding, friction, and sealing to be integrated. The processes enable complex geometry, undercuts, and features unachievable through standard injection molding alone. In this comprehensive guide, we’ll examine over-molding and insert molding applications, processes, materials, design considerations, and leading manufacturing solutions. We’ll explore how over-molding and insert molding creates next-generation components integrating polymers, metals,…
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How to Choose a Reliable CNC Machining Shop for CNC Parts

How to Choose a Reliable CNC Machining Shop for CNC Parts

How to Choose a Reliable CNC Machining Shop for CNC Parts For engineers, choosing the right CNC machining partner is critical when prototyping or manufacturing precision components. Partnering with a reputable, experienced CNC shop ensures you get high-quality parts produced on time and on-budget. But how do you identify and vet CNC manufacturers to find a partner you can trust? What key factors indicate expertise, capabilities, and reliability? In this comprehensive guide, we’ll explore the best practices for evaluating and selecting CNC machining suppliers. We’ll look at the telltale signs of outstanding CNC manufacturers versus inadequate shops. Use these tips…
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Complex & Precision CNC Machined Parts

Complex & Precision CNC Machined Parts

Complex & Precision CNC Machined Parts Computer numerical control (CNC) machining has revolutionized manufacturing, enabling highly complex geometries and ultra-precise parts to be fabricated from metals, plastics, composites, and other materials. CNC technology is behind many critical components across the aerospace, defense, automotive, medical, electronics, and precision equipment industries. In this guide, we will examine complex and high-precision CNC machined components, the advanced manufacturing processes used to make them, and the leading suppliers of these parts. Defining Complex and Precision Machined Parts What constitutes a complex CNC machined part? Complexity arises from tight tolerances, intricate 3D contours, deep pockets, internal…
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The Reasons Why Engineers Should Learn Machining Skills

The Reasons Why Engineers Should Learn Machining Skills

The Reasons Why Engineers Should Learn Machining Skills In today's manufacturing industry, having machining skills can be a big advantage for engineers. While engineering programs teach design, analysis, and problem-solving, hands-on machining skills are often lacking in academic curriculums. However, machining capabilities allow engineers to prototype, modify, and troubleshoot designs far more effectively. Engineers who know their way around machine shop equipment better understand manufacturing processes, part fabrication, and equipment capabilities. For those reasons and more, acquiring machining skills should be a priority for any student or working engineer looking to advance their career. In this in-depth guide, we will…
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Various Aluminum Alloys for Manufacturing

Various Aluminum Alloys for Manufacturing

Various Aluminum Alloys for Manufacturing Aluminum is one of the most versatile and widely used metals in manufacturing and production today. Its unique properties of being lightweight, highly conductive, durable, corrosion resistant, and easily machined make aluminum suitable for a vast range of applications across many industries. However, not all aluminum alloys exhibit the same characteristics and properties. There are numerous different aluminum alloys available, each with its own advantages, disadvantages, and ideal uses. In this comprehensive guide, we will examine the most common aluminum alloys used in manufacturing and discuss their compositions, properties, applications, and production methods. Alloy Classifications…
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