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Home
About Us
Company Profile
Customer Reviews
FAQ
Videos Center
Products
Glass
Composite Materials
Ceramic Materials
Superhard Materials
Non-ferrous Metals
Ferrous Metals
Cutting tools for difficult-to-cut materials
Optical Materials processing
Grinding wheel for optical windows
Diamond cutting wheel for glass
Ceramic Materials Processing
Cutting
Surface Grinding
Centerless Grinding
External Grinding
Composite Materials Processing
Cutting
Grinding
Diamond Materials Processing
Cutting Tool Blanks
PCD Cutting Machines
PCD/ CBN Grinding Wheel
MCD Tools Ginding
Peripheral Grinding Wheel
Cermet Tools Grinding
Diamond Parts Grinding
Grinding Machines
Dressing
Brazing
Semi-conductor Materials Processing
Cutting
Grinding
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Cutting
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Aug
11
Diamond grinding discs, the ultimate choice for grinding food spices to perfection.
The grinding of hard spices has always been a "difficult point" in the processing of spices. Cinnamon and star anise have a rich aroma and wide applications, but due to their high hardness and strong fibrous toughness, ordinary grinding discs often cannot handle them. Diamond grinding disc, it could easily overcomes the difficulty of grinding cinnamon and star anise, locks in the pure aroma and improves grinding efficiency.
Aug
06
Nitinol Bone Drill: Material Advantages, Clinical Applications & Machining Insights
Explore the advantages, clinical uses, and machining techniques of Nitinol bone drills. Learn how superelastic and shape-memory properties enhance precision in orthopedic, spinal, and dental surgeries.
Jul
24
Grinding Solutions for Graphite
Learn how to select the ideal diamond grinding wheel for graphite machining. Explore the advantages of resin, ceramic, and metal bond wheels, along with essential grinding parameters to optimize efficiency, precision, and tool life.
Jul
22
PCD Micro-Edge Milling Cutters: The Nanoscale Artisans of Industrial Manufacturing
In the realm of precision engineering, there exists a "divine tool" known as the PCD micro-edge milling cutter. Like a master sculptor with supernatural skills, it effortlessly slices through aluminum alloys as if cutting tofu, while etching nanoscale intricate patterns on carbon fiber and plastics. Today, we unveil the mysteries of this "industrial scalpel."
Aug
06
Optimizing Carbide Tobacco Circular Cutting Blade Regrinding
Explore how Moresuperhard's resin diamond grinding wheel optimized the regrinding of carbide circular knives for a Lithuanian customer. Learn how our solutions enhance grinding efficiency, precision, and tool longevity.
Jul
08
Customer Case: Precision Machining of 20MNCR5 Gears and Car Shafts Using PCBN Inserts
In the challenging world of machining 20MNCR5 steel components, achieving precision and surface quality is crucial, especially for high-speed, high-friction applications. This case study explores how Moresuperhard PCBN inserts enabled a customer to successfully machine gears and car shafts made from 20MNCR5, a material with hardness ranging from 58-62 HRC. By leveraging advanced tooling solutions, the customer enhanced tool life, improved surface finishes, and increased productivity in their machining processes.
Jul
02
TC4 Titanium Alloy Grinding Wheel Selection Guide
Discover the ultimate guide to selecting the right grinding wheel for TC4 Titanium Alloy. Learn about the best abrasive materials (Green Silicon Carbide, CBN, Diamond), bond types (Ceramic, Resin, Metal), and grit sizes to achieve optimal grinding results. Explore key grinding parameters, cooling tips, and recommended wheel combinations for rough grinding, precision grinding, and polishing. Improve efficiency, reduce heat buildup, and ensure a flawless finish for titanium alloy machining with our expert recommendations.
Aug
06
Vitrified CBN Grinding Wheel for Powder Metallurgy High-Speed Steel
Learn how ceramic bond CBN grinding wheels achieve exceptional surface finishes on powder metallurgy high-speed steel (PM HSS). This case study shows how 800# and 1200# CBN wheels help achieve surface roughness as low as Ra0.1μm for high-precision machining. Explore the benefits and solutions for grinding hard materials with CBN wheels.
Jun
17
Grinding Challenges and Solutions for NbTi Superconductor Alloys
Niobium-Titanium (NbTi) alloys are widely used in superconducting applications such as MRI systems and particle accelerators. However, machining these materials—especially through grinding—poses unique challenges due to their ductility, low thermal conductivity, and high surface quality requirements. This article explores the difficulties of grinding NbTi superconductors and offers practical solutions, including recommended diamond grinding wheel types, process parameters, and best practices for achieving optimal surface integrity.
Jun
06
Precision Grinding of Silicon-Based Materials with Diamond Grinding Wheel
In the modern era of high-performance electronics, semiconductors, and advanced ceramics, silicon-based materials play a vital role. These materials, including monocrystalline silicon, polycrystalline silicon, silicon carbide (SiC), and silicon nitride (Si₃N₄), are widely used in industries such as microelectronics, photovoltaics, aerospace, medical technology, and precision optics. However, due to their high hardness, brittle nature, and sensitivity to heat, grinding these materials requires ultra-precise, high-performance tools—specifically, diamond grinding wheels.
May
09
Guardian of the Wafer Edge: The Critical Role of Metal-Bond Diamond Chamfering Wheels in Semiconductor Manufacturing
In semiconductor wafer manufacturing, edge chamfering is a critical yet often underestimated process.Though small in scope, it directly impacts wafer integrity, mechanical strength, and downstream process yield.The tool that makes this possible is the chamfering wheel—and more specifically, the metal-bond diamond chamfering wheel, which plays an irreplaceable role under high-precision, high-stability demands.
May
08
Overcoming the Challenges of Titanium Alloy Machining: A Guide to Selecting the Right Three Types of Cutting Tool Materials
When selecting cutting tools for machining titanium alloys, it is essential to follow the three key principles: anti-adhesion, heat resistance, and toughness.
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