Skip to content 
Essentials of Microfluidic Chip Manufacturing: Techniques and Insights
Microfluidic chip manufacturing involves the creation of small devices that control fluid movement at the microscopic scale, enabling precise chemical or biological processes. These chips are made using techniques like CNC machining, injection molding, and 3D printing.
They are widely used in fields such as biomedicine, chemical analysis, and environmental monitoring, providing rapid and cost-effective solutions for tasks like diagnostics, drug development, and sensor technology.
As technology advances, the potential applications and manufacturing capabilities of microfluidic chips continue to grow, transforming industries worldwide.
Aluminum Car Parts: Exploring Its Process, Benefits, and Applications
In this era of rapid change, aluminum parts continue to gain popularity in different industries, particularly the automotive industry. Aluminum is one of the many materials automotive manufacturers rely heavily on to develop lightweight, corrosion-resistant automobile parts. These aluminum car parts are dependable, long-lasting, and cost-effective.
Hence, they are widely used in engine blocks, radiators, wheels, chassis enclosures, body panels, cylinder heads, intake manifold, and suspension systems. There are various aluminum alloys, each with distinct properties that make them appropriate for different automotive applications.
This guide delves into a detailed discussion of aluminum car parts and how to manufacture them. Continue reading to learn essential properties that make aluminum the preferred vehicle parts, the benefits of using aluminum car parts, typical aluminum car parts applications, and the trend of aluminum in cars. Let’s get to it!
PMMA Machining: A Detailed Guide to the Process
Manufacturers and designers across product manufacturing industries embrace CNC plastics such as PMMA in machining precision parts due to their fundamental properties. Acrylic, acrylic glass, or PMMA, is a versatile engineering plastic compatible with CNC machining processes, including milling, turning, and drilling.
Although PMMA’s inherent properties make it a widely embraced material, it is essential to understand everything about it to determine if it meets your project’s specifications. This article explores CNC PMMA machining, its fundamental properties, and typical applications.
Read on to learn helpful tips for producing high-precision, cost-effective PMMA machined parts!
The 7 Most Common Impact-Resistant Plastics
Impact resistance plastics are specialized materials designed to withstand high-impact forces without breaking or deforming. These plastics are commonly used in applications such as automotive parts, protective gear, and construction materials due to their durability and strength.
The seven types of impact-resistant plastics you need to know about include Polycarbonate (PC), Acrylonitrile Butadiene Styrene (ABS), Polyethylene
Terephthalate Glycol(PET), Polyamide(Nylon), High-density Polyethylene(HDPE), Polytetrafluoroethylene(PTFE ) – Teflon, and PEEK.
Each type offers unique properties and benefits, making them suitable for various industrial and commercial applications.
Kovar Alloy Machining: Top Applications and Why You Should Choose It
Kovar alloy sets the industry standard for creating components that demand exact thermal expansion compatibility, making it indispensable in sensitive technological applications.
Its remarkable adaptability not only meets but exceeds the stringent demands of various sectors, from aerospace engineering to the finesse of medical devices.
Dive into the compelling advantages and top applications of kovar alloy that underscore its value in custom machining, and discover how AT-Machining’s precision services can elevate your project’s success.
The Key Benefits of Titanium Nitride (TiN) Coating for Tools and Components
Titanium nitride coating significantly enhances tool and component performance by increasing hardness, reducing wear, and extending service life.
Ideal for a wide range of applications, this coating improves cutting speed and precision while minimizing maintenance needs.
Discover the comprehensive benefits of titanium nitride coating and why it’s a top choice for industry professionals seeking to maximize efficiency and durability.
Everything You Should Know about Custom Motorcycle Parts Manufacturing
Welcome to the intricate world of custom motorcycle parts manufacturing, a realm where artistry and engineering seamlessly intertwine.
This blog offers an in-depth look at the entire process, from the imaginative design of custom parts to the meticulous selection of materials and advanced manufacturing techniques.
Prepare to delve into the precision and challenges of creating bespoke motorcycle components, culminating in the essential guide to selecting a trustworthy manufacturer.
Understanding Transmission Shafts: Types, Materials, Design, and Manufacture
Shafts are versatile engine components with varying applications across industrial manufacturing, consumer products, transportation, and mining industries. Transmission shafts are one of the commonly used shafts.
Transmission shafts have a circular cross-section and are responsible for transferring power or motion within engines or machines. Transmission shafts transfer power from one part producing power to another which receives it. Hence, transmission shafts are core to all rotating machinery.
This guide provides an in-depth discussion of transmission shafts meaning, types, manufacturing processes, and materials used. You will also learn helpful transmission shaft design considerations by reading to the end. Let’s get to it!
Aluminum Injection Molds in Plastic Manufacturing: A Complete Guide
Conventional steel molds have long been the mainstay for mass production of plastic parts. However, with increasing demand for smaller production runs and faster turnaround times, aluminum injection molds have emerged as a compelling alternative.
Aluminum injection molds have gained favor among manufacturers seeking a balance between cost-effectiveness, product quality, and production speed. Advances in aluminum alloys have significantly enhanced their strength and hardness, making them suitable for longer-lasting molds. This extends their applicability beyond plastic prototyping and bridge tooling to full-fledged production runs.
This article delves into the details of aluminum injection molds, exploring their advantages, key features, and applications. We will also provide a design guide to help you get superior aluminum molds.