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Hyperion Materials & Technologies is a leading global manufacturer of hard and super-hard materials used in a wide range of industries and applications. We apply our materials science, engineering and manufacturing expertise to position our customers to win. Born out of GE, Diamond Innovations and Sandvik, we have a legacy of expertise and innovation and a future of infinite possibilities
Hyperion Materials & Technologies has mastered cemented carbide into one of the most successful composite engineering materials ever produced. Its unique combination of strength, hardness and toughness satisfies the most demanding applications.
Learn more at our:
"All About Cemented Carbide" website
- http://www.allaboutc
Hyperion Materials & Technologies is a global leader in the development and manufacture of advanced materials, including cemented tungsten carbide, which is one of the most versatile composite materials ever created. Cemented carbide possesses incredible physical and chemical properties that make it resistant to a wide range of stressful conditions and an ideal material solution for many challenging applications.
Metal cutting saw tip blanks are essential for improving a saw blade''s cutting performance and lifespan. Determining which material of blanks you should use for manufacturing your saw blades depends on several factors. Here are five factors to consider when choosing the right materials for your saw tip blanks
Learn more at: https://www.hyperion
Precision Solutions by Hyperion: Finishing the Impossible
The booming semiconductor market demands constant innovation in material processing, especially for emerging materials like silicon carbide (SiC). A critical step near the end of the process where diamond is often not used is the chemical mechanical polishing (CMP) stage.
This crucial step removes possible surface defects in the SiC wafer. However, it''s very time-sensitive and often serves as a bottleneck that impacts efficiency output. Discover how submicron Hyperion Diamond can help reduce the final CMP bottleneck and produce epi-ready wafers efficiently.
One of the most effective ways to maximize the performance of a round tool for applications with high heat or high friction is through the use of coolant channels.
The ideal configuration of the through holes in the carbide rod blank depends on the requirements of the application of the tool being manufactured.
Different hole designs can lead to different benefits for your customer in their application, including improved heat dissipation and chip evacuation.
This video shows how coolant hole shape, coolant hole orientation, coolant hole density, and coolant hole entry and exit points can be combined to optimize the performance of your tooling.
With Hyperion Materials & Technology''s ability to create custom-shaped coolant channels in straight, helical or spiral grooves, you will be able to effectively meet the unique needs of your end market''s challenging applications.
The ability to deliver and receive carbide rod blanks on time depends on a complicated global supply chain ecosystem, built on limited mining of natural resources, geographic and political considerations, and the ability and location of the manufacture and stocking of carbide rods.
To help mitigate these risks, toolmakers need to carefully evaluate their carbide rods suppliers'' capabilities to ensure that they have a clear focus on their supply chain management from raw materials to delivery.
In particular, there are three critical points that toolmakers can assess to define the stability, agility and safety of a supplier supply chain:
If you want additional information, read the guide "3 Steps to Supply Chain Security for Tool-Grade Tungsten Carbide Rods" here: https://www.hyperion
Necker match gap is defined as the radial clearance between the necking die inner diameter, commonly known as the bore diameter, and the knock-out outer diameter, also known as the minor diameter. A poorly designed match gap in a necking process causes spoilage in the form of crushed, puckered, pleated, and squatting cans. Precision in match gap design, understanding production parameters, and selecting the correct materials can eliminate common issues in the necking process.
The can tooling team at Hyperion Materials & Technologies shares how properly managing the necker match gap is essential for preventing defects such as crushed, puckered, pleated, and squatting cans. This video explores how variations in match gap and production parameters can impact waste and spoilage rates.
Toolmakers looking to develop their next metal cutting insert project face the difficult decision of selecting a supplier to provide high-quality insert blanks. Should they source from a finished tools supplier who develops blanks and finished tooling or specialized blank-only suppliers who only develop insert blanks.