Low porosity clay bricks are made of ruby, mullite and combined clay as the main raw materials, molded under high pressure and sintered at high temperature. The product has excellent high temperature Physical properties and chemical corrosion resistance. Low porosity clay bricks have good stability, the degree of erosion does not occur sudden change, than ordinary clay bricks use cycle increased 2-3 times. Thermal conductivity, specific heat and solubility, respectively, than ordinary clay bricks 2 times higher than 10% and 40%, heat storage capacity than ordinary clay bricks higher than 50% -60%, can improve the thermal efficiency of the kiln. Arc Type High Alumina Bricks,Rotary Kiln High Alumina Curved Brick,Kiln Arch Refractory Bricks Huixian Xinwei Refractories Co. , https://www.xinweirefractory.com
Desai grinding material system and its system introduction
Grinding materials are a type of composite material that plays a crucial role in the manufacturing industry. These materials consist of abrasive particles embedded in a matrix, either fixed or free, designed to remove excess material from a workpiece or alter its shape through cutting. In a broader sense, these materials act as functional composites that operate at specific speeds with minimal cutting thicknesses, ensuring precise and efficient machining.
The design of grinding material systems is rooted in a robust theoretical framework. It leverages concepts from material science, particularly those related to composite materials, and applies principles of friction and micro-cutting. By integrating inorganic polymers with various abrasives, this approach bridges multiple disciplines, including physics, chemistry, mechanics, and tribology. The aim is to develop optimal solutions for grinding diverse materials, transcending conventional notions of bonded abrasives, coated abrasives, and superhard abrasives. This innovation seeks to address challenges where traditional grinding methods fall short, offering tailored and functional applications.
With advancements in super-hard abrasives and finishing materials, grinding tools have become essential for precision and efficiency in manufacturing. Our mission involves researching and developing novel grinding materials that surpass existing capabilities. Guided by a problem-solving philosophy, we strive to create solutions that cater specifically to the needs of different materials. Theoretically, this work establishes a foundation for new product development, influencing both manufacturing processes and application strategies. Practically, it ensures continuous refinement through real-world testing, driving innovation in the field.
Our research extends to understanding how the composition and structure of grinding materials impact their performance. We explore how these factors interact within the broader context of material science, focusing on their professional and functional applications. Key areas of study include the micro-cutting theories underpinning grinding materials, along with their classification and database creation. Additionally, we investigate the conversion between different types of abrasives—bonded, coated, and superhard.
Attached are images showcasing some of our products:
- A large cutting piece with a diameter of 1800mm.
- Heavy-duty grinding wheels with diameters of 900mm and 400mm respectively.
- Another image highlighting our advanced manufacturing capabilities.
These products exemplify our commitment to excellence and innovation in grinding technology.
*Note: The attached images provide visual evidence of our product range, demonstrating our ability to handle both large-scale industrial tasks and intricate machining operations.*