Material Consolidation: The Power of Field Assisted Sintering

In the ever-evolving landscape of materials science and engineering, innovations that enhance the efficiency and performance of manufacturing processes are paramount. Among these advancements lies Field Assisted Sintering Techniques (FAST), a groundb ...

Pioneering Precision with Planetary Ball Milling

In the dynamic realm of materials science and engineering, California Nanotechnologies stands as a vanguard provider, specializing in cutting-edge techniques for the production of finely powdered materials. Among its arsenal of innovative methods, pl ...

Revolutionizing Precision Machining with Tungsten Carbide Tooling

In the realm of precision machining, where durability, precision, and efficiency reign supreme, California Nanotechnologies stands as a pioneering force, harnessing the power of tungsten carbide tooling to redefine industry standards. With a relentle ...

Revolutionizing Material Fabrication with Spark Plasma Sintering Technology

In the realm of material science and engineering, precision and efficiency are paramount. California Nanotechnologies stands at the forefront of innovation, offering cutting-edge solutions that redefine the landscape of material fabrication. Among it ...

Pioneering Precision with Planetary Ball Milling

California Nanotechnologies (Cal Nano) stands at the forefront of innovation in materials science, leveraging cutting-edge technologies to redefine the boundaries of what's possible in various industries. At the heart of their groundbreaking methodol ...

Advancing Materials Science: Exploring the Potentials of Field-Assisted Sintering

Field-assisted sintering, also referred to as spark plasma sintering (SPS) or pulsed electric current sintering (PECS), stands as a pivotal technique in materials processing, seamlessly consolidating powders into dense solid materials at lower temper ...

Spark Plasma Sintering (SPS): Revolutionizing Materials Densification for Advanced Applications

Spark Plasma Sintering (SPS) is a powder metallurgy technique used for the consolidation and densification of materials, particularly ceramics and powders. It is an advanced sintering method that applies both pressure and pulsed direct current (DC) o ...

Enhancing Material Performance: Unveiling the Power of Hot Isostatic Pressing (HIP)

Hot Isostatic Pressing (HIP) is a specialized manufacturing technique designed to enhance the mechanical properties of materials through simultaneous exposure to high temperature and pressure in an inert gas environment. The process involves placing ...

Precision Redefined: The Role of Tungsten Carbide Dies in Industry

California Nanotechnologies stands at the forefront of innovation, crafting precision tools that redefine the standards in industrial manufacturing. Among their stellar lineup of products, tungsten carbide dies take center stage, showcasing exception ...

Revolutionizing Material Fabrication with Advanced Spark Plasma Sintering Services

California Technologies stands at the forefront of innovation, offering cutting-edge Spark Plasma Sintering (SPS) services that redefine the landscape of material fabrication. SPS is a powder metallurgy technique that holds immense potential in creat ...

Pioneering Cryomilling Services in California

CalNano Technologies, based in California, has positioned itself as a leader in providing innovative cryomilling services for a range of industries, including materials science, nanotechnology, and powder metallurgy.Precision Cryomilling:At the core ...

Revolutionizing Materials Synthesis: An In-Depth Exploration of Spark Plasma Sintering (SPS)

Spark Plasma Sintering (SPS) is a powder metallurgy technique used for the densification of materials, particularly ceramics and powder-based materials. It is also known as Field Assisted Sintering Technique (FAST). The process involves the applicati ...

Cutting-Edge Advanced Hot Pressing Capabilities

In the world of advanced manufacturing, California Nanotechnologies stands at the forefront, leveraging state-of-the-art techniques to push the boundaries of materials engineering. One of the key methodologies propelling their innovation is advanced ...

Near Net Shape Sintering: Precision Manufacturing for Efficient and Complex Component Production

Near net shape sintering is a manufacturing process used to produce complex-shaped components with a high level of precision, often eliminating or minimizing the need for additional machining or finishing operations. The term "near net shape" indicat ...

Exploring Planetary Ball Milling for Nanoparticle Synthesis

In the realm of nanotechnology, the quest for fine powders and precisely engineered nanoparticles has led to the development of innovative techniques. One such method gaining prominence is planetary ball milling. This process involves grinding materi ...

Unveiling the Power of Hot Isostatic Pressing (HIP) in Material Enhancement

Hot Isostatic Pressing (HIP) stands as a technological marvel in the realm of material science and manufacturing processes. This technique, widely employed in industries ranging from aerospace to medical, holds the key to transforming the properties ...

Field-Assisted Sintering: A Revolutionary Process for Advanced Material Manufacturing

Field-assisted sintering, also known as spark plasma sintering (SPS) or pulsed electric current sintering (PECS), is a cutting-edge technique in materials science and engineering. This innovative process enables the rapid and efficient consolidation ...

Tungsten Carbide Dies: Unveiling the Versatile Tools for Precision Manufacturing

In the realm of precision manufacturing, a remarkable material known as tungsten carbide takes center stage. Tungsten carbide dies, composed of tungsten (W) and carbon (C) atoms in a 1:1 ratio, are indispensable tools used in various industrial proce ...

High Strength Graphite in SPS Tooling: Revolutionizing Material Processing

In the realm of advanced material processing and manufacturing, the quest for superior tooling materials is never-ending. One such innovation that has gained substantial attention is high strength graphite, particularly in the context of Spark Plasma ...

Understanding SPS Machines: Their Role in Modern Industry

In today's fast-paced world of manufacturing and industry, automation plays a pivotal role in enhancing efficiency, productivity, and precision. One such marvel of automation is the SPS machine, which stands for "Sequential Programmed System." These ...

Tungsten Carbide Dies: Unveiling Their Multifaceted Applications

Tungsten carbide dies, often hailed as one of the unsung heroes of manufacturing, play a crucial role in shaping, cutting, and forming a wide range of materials. These versatile tools are highly regarded for their durability and precision, making the ...

Exploring Cryomilling Services: Unlocking the Potential of Cold Grinding

In the world of advanced materials and manufacturing, precision and innovation are key. One process that has gained significant attention in recent years is cryomilling. This cutting-edge technique involves milling materials at extremely low temperat ...

Tungsten Carbide Tooling: The Cutting Edge of Precision

Tungsten carbide tooling is a revolutionary material used in various industries for cutting, shaping, and machining operations. It has earned a reputation for being one of the most durable and versatile materials in the realm of precision engineering ...

Hot Isostatic Pressing (HIP): Enhancing Material Properties for Advanced Applications

In the world of materials science and engineering, innovations continually pave the way for enhanced performance, efficiency, and reliability across various industries. One such innovation is Hot Isostatic Pressing (HIP), a powerful technique used to ...

Spark Plasma Sintering: Revolutionizing Materials Science

In the world of advanced materials and manufacturing, the Spark Plasma Sintering (SPS) system stands as a cutting-edge technology that has been transforming the way we produce and engineer materials. SPS is a highly specialized and innovative techniq ...

Field-Assisted Sintering: A Transformative Approach to Materials Processing

In the ever-evolving field of materials science and engineering, innovative techniques continue to emerge, offering novel ways to manufacture high-performance materials with enhanced properties. Field-assisted sintering is one such groundbreaking met ...

Cryogenic Milling: The Cool Solution to Reducing Polymer Powders into Fine Meshes

In the world of manufacturing and materials science, the quest for perfection is an ongoing pursuit. For industries reliant on polymer powders, achieving the desired particle size and consistency is crucial. Whether it's for additive manufacturing, c ...

Cryogenic Milling: Unlocking Enhanced Surface Area for Absorbents and Catalysts

In the fascinating world of materials science, the size of particles holds the key to unlocking enhanced performance in critical applications like absorbents and catalysts. These microscopic agents play a vital role in diverse industries, ranging fro ...

Cryomilling Services: Unlocking Next-Level Material Precision

In the realm of advanced materials engineering, precision and performance are paramount. Cryomilling services have emerged as a revolutionary technique that enables the fabrication and modification of materials with unprecedented levels of accuracy a ...

Spark Plasma Sintering (SPS) Machines: A Gateway to Advanced Material Consolidation

In advanced materials engineering, innovation and precision play a pivotal role in shaping the landscape of modern industries. Spark Plasma Sintering (SPS) machines have emerged as a groundbreaking technology that allows for the rapid consolidation o ...

Unveiling the Power and Uses of High-Strength Graphite

Graphite has long been valued for its unique properties, such as its excellent thermal and electrical conductivity, but advances in nanotechnology have now unlocked the potential for producing high-strength graphite. Among the pioneers in this realm ...

High Entropy Alloys: The Future of Advanced Materials

As technology advances and industries seek to push the boundaries of performance and efficiency, materials science has become a focal point of research and innovation. High Entropy Alloys (HEAs) represent a revolutionary class of materials that have ...

Revolutionizing Manufacturing: Near Net Shape Sintering Services

In the fast-paced world of manufacturing, advancements in technology are constantly pushing the boundaries of what's possible. One such breakthrough is near net shape sintering, a cutting-edge process that allows for the creation of highly complex an ...

Unleashing the Power of Spark Plasma Sintering: Transforming Industrial Manufacturing and Beyond

Introduction:In the world of industrial manufacturing, technological advancements continue to reshape traditional processes, enabling the development of advanced materials with superior properties. One such groundbreaking innovation is the Spark Plas ...

Unleashing the Power of Tungsten Carbide Tooling: California Nanotechnologies Leading the Way

In the world of precision manufacturing and cutting-edge technologies, the demand for high-performance tooling has reached unprecedented levels. One material that has revolutionized the industry is tungsten carbide, renowned for its exceptional hardn ...

Revolutionizing Precision Manufacturing: Unveiling the Power of California Nanotechnologies' SPS Machine

In the realm of advanced manufacturing, where precision and efficiency reign supreme, California Nanotechnologies has emerged as a pioneer with its groundbreaking Spark Plasma Sintering (SPS) Machine. Leveraging the power of nanotechnology and cuttin ...

Exploring California Nanotechnologies' Tungsten Carbide Tooling

Introduction to Tungsten Carbide Tooling:California Nanotechnologies is at the forefront of cutting-edge manufacturing solutions, offering a comprehensive range of high-quality tungsten carbide tooling. Renowned for its exceptional hardness, wear res ...

Revolutionizing Industrial Manufacturing: Unleashing the Power of Field Assisted Sintering Services

Introduction to Field Assisted Sintering:In the realm of industrial manufacturing, advancements in material science and engineering are constantly driving innovation. One such breakthrough technology that has garnered immense attention is Field Assis ...

Applications of Cryogenic Milling: Enhancing Efficiency and Quality in Various Industries

Cryogenic milling is a process that involves reducing the size of particles and materials by subjecting them to extreme cold temperatures. This process has many advantages over traditional milling methods, including improved efficiency, reduced conta ...

Cal Nano's Cryogenic Milling Toll Services: Enhancing Efficiency and Quality in Industrial Milling

Cryogenic milling is a process that involves reducing the size of particles and materials by subjecting them to extreme cold temperatures. This process has many advantages over traditional milling methods, including improved efficiency, reduced conta ...

How FeN is Revolutionizing the Electric Vehicle Battery Industry with Calnano Corp's Spark Plasma Sintering Technology

The electric vehicle (EV) industry is growing rapidly, and as the demand for sustainable transportation continues to rise, the need for high-performance EV batteries becomes increasingly critical. Iron nitride (FeN) is a promising new material that c ...

Tungsten Carbide Dies: Calnano's High-Quality Products for Precision Manufacturing

Tungsten carbide dies are essential tools used in precision manufacturing. These dies are used to shape and form a range of materials, including wire, tubing, and rods. Tungsten carbide is a popular material choice for dies due to its excellent hardn ...

Field-Assisted Sintering Services: Enhancing Material Properties with Calnano's Expertise

Field-Assisted Sintering Technologies (FAST) is a rapidly evolving field that allows for the creation of advanced materials with enhanced properties. FAST offers a range of benefits, including improved mechanical properties, better thermal stability, ...

Revolutionize Your Material Processing with Calnano's SPS Machines

Spark Plasma Sintering (SPS) is an innovative powder metallurgy technique that has revolutionized material processing. The SPS machine applies high pressure and temperature to powders, producing fully dense materials with excellent properties. Calnan ...

Spark Plasma Sintering: Revolutionizing Material Science with Calnano's Innovative Systems

Material science is an essential field with applications ranging from aerospace to biomedical engineering. One of the most promising technologies in this field is Spark Plasma Sintering (SPS), which allows for the creation of advanced materials with ...

Optimizing Performance with Tungsten Carbide Tooling from Calnano Corp

Tungsten carbide is a material known for its exceptional strength, toughness, and wear resistance, making it ideal for use in the manufacture of high-performance tooling. Calnano Corp is a leading provider of tungsten carbide tooling for a variety of ...

Revolutionizing Materials Science with Spark Plasma Sintering Machines from Calnano Corp

Spark Plasma Sintering (SPS) is a cutting-edge technology used in materials science to create high-performance materials with unique properties. Calnano Corp is a leading provider of Spark Plasma Sintering machines, offering state-of-the-art equipmen ...

Maximizing Efficiency with Tungsten Carbide Dies from Calnano Corp

Tungsten carbide is a material that is known for its high strength, toughness, and durability. These properties make it an ideal material for use in the manufacturing of dies, which are tools used to shape, form, and cut a wide range of materials. Ca ...

Revolutionizing Industry with Spark Plasma Sintering (SPS) Machines

SPS machines: popular in the manufacturing industrySpark plasma sintering (SPS) is a field assisted sintering technique that has gained widespread popularity in the manufacturing industry due to its ability to sinter a wide range of materials and cre ...

The Benefits of Field Assisted Sintering

Field assisted sintering Traditionally, the process of sintering has been used to create solid objects from a powder material by heating it to just below its melting point. However, the development of field assisted sintering techniques has revolutio ...

Maximizing Productivity with Tungsten Carbide Dies

Tungsten carbide dies: a popular choice for many industriesTungsten carbide is a hard, durable material that has become a popular choice for use in a variety of applications, including the manufacturing of dies. Tungsten carbide dies offer a range of ...

Revolutionizing Materials: The Benefits of High Strength Graphite

Graphite has long been known for its versatility and usefulness in a variety of applications, from traditional pencils to high-tech fuel cells. However, the development of high strength graphite has taken this versatile material to new heights, offer ...

High Strength Graphic Tooling is Just one of our Specialities

Calnano Corporation is a leading provider of high-strength SPS (Spark Plasma Sintering) graphite tooling for a variety of industries. Using state-of-the-art equipment and processes, Calnano is able to create fully dense, high-strength graphite parts ...

Find a SPS Sintering & Tooling Partner that Leads with Industry Experience

Calnano Corporation is a leading provider of sintering services for a wide range of industries. Using a specialized process called SPS (Spark Plasma Sintering), Calnano is able to create high-strength, fully dense parts with exceptional precision and ...

Innovative Spark Plasma Sintering Services at Your Fingertips

Spark plasma sintering services involve a rapid prototyping, high-temperature powder consolidation technology capable of producing parts with significant improvements in strength and wear resistance. This process utilizes the principles of spark disc ...

Discover The Importance of Tungsten Carbide Dies

Tungsten carbide dies are a type of specialized tooling used in the metalworking industry. They are primarily used to form and shape metals, such as steel and aluminum. Tungsten dies provide superior strength and wear resistance compared to other typ ...

Achieve New Milestones with High Strength Graphite

High strength graphite is a material that offers outstanding performance in extreme conditions. It is very durable, lightweight and resistant to wear and tear. The material has a greater strength-to-weight ratio than steel and aluminum and is commonl ...

Get The Field Assisted Sintering That Makes a Difference

Field Assisted Sintering Technology (FAST) is a powder metallurgy process that offers many advantages over traditional sintering methods. FAST utilizes ultra-high frequency electric fields to rapidly accelerate the sintering of metal and ceramic powd ...

How Does the Spark Plasma Sintering System Work?

A spark plasma sintering system (SPS) uses an electric spark to quickly heat and compress a powder material, resulting in a strong and dense final product. This type of system is often used for manufacturing metals, ceramics, and other types of mater ...

Learn More About the SPS Machine

An SPS machine is a type of machine that is used to create or process semiconductor wafers. These machines are typically used in the manufacturing process of various semiconductor devices.  The SPS type of machine works by depositing a thin film ...

Discover The Value of Tungsten Carbide Dies

Tungsten carbide dies are tools used for cutting and shaping metal. They are made from tungsten carbide, a material that is extremely hard and durable. Tungsten carbide dies can be used to cut through thick metal sheets, pipes, and other materials. T ...

What Are the Benefits of Field Assisted Sintering

Field assisted sintering (FAS) is a process that can be used to improve the properties of powdered materials. The process involves applying an electric field to the powder while it is being heated, which causes the particles to interact and bond with ...

Exploring All That Spark Plasma Sintering Services Have to Offer

Spark plasma sintering is a process that can be used to create high-strength, dense metal, and ceramic parts. It works by using an electric spark to compress and heat powder materials, which causes them to fuse together. This process can be very usef ...

What Are the Benefits of Field Assisted Sintering?

Field assisted sintering is a process that uses an electric field to improve the density of a material. This can be used to create stronger and more durable materials, as well as improve the accuracy of manufacturing processes. Field assisted type si ...

Discover The Big Advantages of High Strength Graphite

High strength graphite has some big advantages that make it an attractive option for many different applications. One of the key benefits is its high strength-to-weight ratio, which makes it much lighter than other materials with similar properties. ...

How Tungsten Carbide Dies Benefit Industry

Tungsten carbide is an extremely hard material that is often used for cutting and machining tools. Tungsten carbide dies are made from tungsten carbide, which is then combined with other metals to create a tool that can be used for various industrial ...

Tungsten Carbide Tooling is the Smart Choice Today

The tungsten carbide tooling used in today's manufacturing facilities is the smart choice for a variety of reasons. This type of tooling is more durable and longer lasting than other types of materials, making it ideal for use in high-demand environm ...

Explore The Concept of Field Assisted Sintering

Field assisted sintering is a process that uses an electric field to help consolidate powder into a solid form. The field assists in the diffusion of particles, which helps to reduce the overall sintering time and temperature. This process can be use ...

How Does High Strength Graphite Provide Reliability?

High strength graphite is a high-quality, high-strength material that is used in a variety of industries because its reliability and performance. Its high strength and durability make it an ideal choice for applications where reliability is critical, ...

Exploring The Options with Spark Plasma Sintering Systems

Spark plasma sintering systems work by using plasma to create heat and pressure. This heat and pressure are then used to sinter, or join, particles of powder. The plasma is created by an electrical current passing through a gas. The gas is usually ar ...

What is Spark Plasma and How Does it Work?

Spark plasma is a process that uses high-voltage spark discharge to ionize a gas and create plasma. The plasma is then used to heat and melt materials, which can be used to create new products or to modify existing ones. Spark plasma can be used in a ...

Discover The Innovation of Field Assisted Sintering

Field assisted sintering (FAS) is a process that uses an electric field to help consolidate powder materials into a solid mass. The field assists in the diffusion of atoms, which helps to reduce the overall sintering time and energy requirements. FAS ...

What is High Strength Graphite Used For?

High strength graphite is used in a variety of products, from batteries to bulletproof vests. It is incredibly strong and durable, making it ideal for many industrial and commercial applications. Some of the most common products made with high streng ...

The Key Functionalities of a Spark Plasma Sintering Machine

A spark plasma sintering machine is a type of powder-based 3D printer. It uses a high-energy spark to consolidate metal or ceramic powder into a solid object. Spark plasma sintering is typically used for creating prototypes or small batches of parts, ...

High Entropy Alloys - What Are They? How Are They Made with Cryo-milling & Consolidated with Spark Plasma Sintering?

High entropy alloys (HEAs) are a new class of materials that have attracted much attention in recent years due to their unique properties. HEAs are defined as alloys with five or more principal elements in approximately equal atomic percentages. The ...

What is Graphite Tooling for Spark Plasma Sintering?

Graphite tooling is a type of tooling that is used in the process of spark plasma sintering. Graphite related tooling is made from graphite, which is a material that is resistant to high temperatures and has a low coefficient of thermal expansion. Th ...

Cryogenic Milling - How It Works and the Benefits

Cryogenic milling is a process that uses extremely low temperatures to break down materials. This process can be used to pulverize a variety of materials, including metals, plastics, and even some types of food. The benefits of cryogenic milling incl ...

Discover the Possibilities with Tungsten Die Related Products

A tungsten die is a metal die used in various industries to produce tungsten products. Tungsten is a hard, wear-resistant material that is often used in the manufacturing of tools and other products. The tungsten die helps to shape tungsten products ...

What is a Spark Plasma Sintering Machine and How Does it Work?

A spark plasma sintering machine is a type of equipment used to create extremely dense and strong metal or ceramic parts. It works by using an electrical discharge to compress and heat the material being worked on, causing it to fuse together. This p ...

What Is Field Assisted Sintering?

Field assisted sintering, also known as field assisted powder consolidation, is a process used to consolidate powder into a dense, strong body. The process uses an electric field to draw the particles of powder together and cause them to bond. Field ...

What Does a Tungsten Die Do and What is it Used For?

A tungsten die is a specialized type of die that is used for certain industrial applications. Its main function is to shape and form materials, such as steel or tungsten alloys, into various shapes and sizes. This makes tungsten dies a critical compo ...

Learn More About the Spark Plasma Sintering Machine

A spark plasma sintering machine is a specialized piece of equipment used for the rapid heat treatment and compaction of materials, typically metals or ceramics. This type of machine uses an electric spark to generate high-temperature plasma that rap ...

What Is SPS Powder and What is it Used For?

SPS powder is a type of material used in many industries for a variety of applications. This powder has unique properties that make it suitable for use in processes such as filtration, chemical reactions, and electrical insulation. One common use of ...

What is Nano Carbide?

Nano carbide is a small, sharp particle that is made of carbon and nitrogen. It is used for a variety of industrial applications, including cutting and grinding tools, abrasives, and coatings. Nano carbide can be found in a host of places, including ...

What is SPS Powder?

SPS powder is a fine, white powder that is used in a variety of industries. It can be used to make products such as plastics, paints, and coatings. In addition, SPS type powder can also be used to improve the performance of these products. The powder ...

What is a Tungsten Die?

A tungsten die is an object made out of tungsten that is used in a variety of industries to create products. Tungsten type dies are often used to create parts for products such as cars, appliances, and machinery. They can also be used in the producti ...

Everything You Need to Know About Tungsten Carbide Dies

Everything You Need to Know About Tungsten Carbide DiesIf you are a machinist, you know the importance of having quality tungsten carbide dies. But if you're not familiar with these dies, you may be wondering what they are and how they work. In this ...

What is Titanium Grade 2 Alloy? - Uses, Safety Tips, and More

What is Titanium Grade 2 Alloy? - Uses, Safety Tips, and MoreWhat is titanium grade 2 alloy? Titanium grade 2 alloy is a titanium-based alloy that contains a mix of titanium and other metals, including iron and aluminum. It has many uses, including i ...

Field Assisted Sintering: What Is It, and How is it Used?

Field Assisted Sintering: What Is It, and How is it Used?Field assisted sintering is a process that is used to improve the density and quality of materials. By using a field, such as an electric field or a magnetic field, the material can be better s ...