Huixian Xinwei Refractories Co. , https://www.xinweirefractory.com
Desai grinding material system and its system introduction
Grinding material refers to a type of abrasive composite material, and the widely used grinding material involves the use of abrasive particles in a specific form (such as fixed or free) or attaching them to a carrier to remove excess material from a workpiece or alter its shape. In a more precise definition, abrasive particles in grinding materials are considered a functional composite material designed to cut at a controlled speed and with a minimal cutting depth.
The concept of grinding material systems is rooted in several key principles. First, this system is theoretically supported by the field of materials science, with a focus on composite materials. It draws on theories of friction and micro-cutting, integrating inorganic polymer series materials to combine various abrasives and inorganic polymers across fields such as physics, chemistry, mechanics, processing, material science, and tribology. The ultimate aim is to provide the best possible grinding solutions for different materials, moving beyond the traditional concepts of bonded abrasives, coated abrasives, superhard abrasives, and their products. This approach aims to address complex or challenging grinding issues that current materials cannot solve, enabling professional, targeted, and functional applications.
With the advent of super-hard abrasives and advancements in finishing materials and manufacturing technologies, grinding materials have become both precise and efficient processing tools. This has heightened the demand for innovative grinding materials. Our objective is to research and develop new types of grinding materials, guided by the need to resolve existing limitations in grinding materials or to provide tailored solutions for different materials. From a theoretical standpoint, we aim to lay a foundation for new grinding material products, determine their application directions, and establish a solid industrialization basis for these processes. Practically, this theory guides manufacturing and application practices, while real-world testing refines the theory and drives innovation in grinding material products.
The study of grinding material systems and product engineering involves understanding the composition and structural changes of grinding materials and how these affect performance. It also examines the relationship between process preparation, composition, structure, and application-specific functions, ensuring scientific rigor in this field.
Our research focuses on analyzing grinding materials from a material science perspective to ensure their relevance and functionality. Specifically, our application research includes the fundamental theoretical data related to the preparation of inorganic high molecular materials for grinding materials, their classification, database creation, and validation of micro-cutting theories. Additionally, we explore the conversion between abrasive materials, bonded abrasives, coated abrasives, and superhard abrasives.
Attached are images of our products:
These include a large cutting piece with a diameter of 1800mm and heavy-duty grinding wheels with diameters of 900mm and 400mm respectively.
Our commitment to innovation ensures that we continue to push the boundaries of what grinding materials can achieve, addressing challenges in modern manufacturing and beyond.