the k-factor stands as a fundamental element in the arsenal of precision sheet metal fabricators. Its ability to predict and quantify the behavior of sheet metal during bending operations is indispensable in achieving optimal results.
Copper busbars, also known as copper bus, copper busbar, copper busbar, etc., are used as conductive materials in high and low voltage electrical appliances, distribution equipment, bus ducts, distribution cabinets/boxes, etc., playing a role in current transmission and electrical equipment… Read More »Guidelines for Copper Busbar Selection in Bus Ducts and Bending Dimension Calculation Methods
T52 temper may introduce challenges with smaller radii. Heating and bending are potential solutions. Alternatively, contemplating lower tempers like T1 or the extremely soft 6063-O (fully annealed) becomes a viable strategy.
T52, being artificially aged from the T1 state, involves a trade-off between hardness reduction and strength.
This article has shed light on some key calculations and techniques essential in the realm of stretch forming, serving as a foundational guide for practitioners and enthusiasts alike.
What exactly are “steel” and “iron”, what are their characteristics, and what is their relationship? Where do the 304, 304L, 316, and 316L we usually call come from, and what are the differences between them? 304 stainless steel Auto parts… Read More »What is the difference between 304, 304L, 316 and 316L? Finally got it!
Understanding Aluminum 6061-T6, Bend Radius and 3 Key Factors Affecting Aluminum 6061-T6 Bending; Tips for Bending 6061-T6 Aluminum Without Cracking; Apps.
The bending modulus of 6061 aluminum, ranging between 68.9 GPa to 70.3 GPa (10,000 ksi to 10,200 ksi), underscores its suitability for applications demanding precise bending and structural integrity.
Aluminum breaking after bending can be a significant issue in various applications: The aluminum sheet or aluminum extrusion is easy to break after bending, or it will crack after anodizing bending. Many aluminum alloy processing companies are confused about this. Understanding the main reasons for this problem and implementing preventive measures is essential for achieving successful aluminum bending without failures. So, how to bend aluminum without breaking it? 9 main reasons and 6 tips for preventive measures for aluminum to break after bending.
Bending aluminum tubing can be done using various methods and tools, depending on the specific requirements of your project. Here’s a general guide on how to bend aluminum tubing:
Tools and Materials You’ll Need
When it comes to bending aluminum, elongation at break is a critical parameter that should not be overlooked. This mechanical property holds the key to the formability and ductility of the material, both of which are indispensable in bending processes.