It is polyvinyl chloride (PVC) plastic with an excellent performance of the main Plasticizer.Compared with DOP, it has the advantages of heat resistance, cold resistance, low volatility, resistance to extraction, flexibility and electrical insulation.In the products show excellent durability, resistance to soapy water and low temperature flexibility.Because of its low volatility, the use of DOTP can fully meet the temperature requirements of wire and cable, can be widely used in 70 ℃ cable material (International Electrotechnical Commission IEC standards) and other soft PVC products.
Application:
DOTP addition to a large number of cable materials, PVC plasticizer, can also be used for the production of artificial leather film.In addition, has excellent compatibility, can also be used for acrylonitrile derivatives, polyvinyl butyral, nitrile rubber, nitrocellulose and other plasticizers.It can also be used in synthetic rubber plasticizers, paint additives, precision instruments, lubricants, lubricant additives, can also be used as paper softener.
Dioctyl Terephthalate,Dotp Cable Material,Dotp Pvc Plasticizer,Dotp Artificial Leather Membrane Yucheng Jinhe Industrial Co.,Ltd , https://www.hnironoxide.com
introduction
Hard and brittle materials refer to materials that have high hardness and high brittleness, and are generally non-conductive or semi-conductive, such as various kinds of stone, glass, silicon crystals, quartz crystals, hard alloys, ceramics, and the like. With the development of science and technology and modern industry, the application fields of hard and brittle materials are expanding, and the processing technology of hard and brittle materials is also constantly developing. In various hard and brittle materials processing methods, cutting processing plays an important role. For example, in the processing of building decorative plates and precision parts of rock materials, sawing is the first process of machining, and the cost of sawing accounts for more than 50% of the total processing cost. Currently, various diamond cutting tools are used for cutting and processing hard and brittle materials such as stone. As diamond is the hardest material known in nature, its excellent properties determine its broad prospects for development in the field of cutting and processing of hard and brittle materials such as stone.
The processing methods for sawing hard and brittle materials by using diamond tools mainly include: circular saw blade cutting, diamond band saw cutting, diamond frame saw cutting, and diamond bead saw cutting. Although each method has its own different characteristics and application range, its cutting mechanism and diamond wear mechanism are roughly the same. As rock cutting is the most important use of diamond cutting tools, it is of great significance to deeply study the mechanism of stone sawing and the wear mechanism of diamond cutting tools for the rational manufacture and correct use of diamond cutting tools. For a long time, experts and scholars at home and abroad have conducted extensive experiments and research on the processing mechanism of diamond tool sawing granite, the wear mechanism of diamond tools, and the sawing power in the sawing process, and have achieved remarkable results. The research and development of processing and diamond tools have played an active theoretical guiding role.
Research on sawing mechanism of diamond cutting stone
Diamond abrasives are usually made into cutting tools by sintering or plating. The cutting process of diamond tools is similar to that of grinding. However, due to the influence of materials, the processing mechanism of hard and brittle materials such as rocks and ceramics is different from the metal processing mechanism, and the processing process is more complicated. Since the diamond cutting tool was first applied to stone cutting, there are many researches on the mechanism of diamond cutting stone. Domestic and foreign scholars have conducted long-term research on the processing mechanism of diamond tools sawing granites. From the early application of rock fracture theory under the intrusion of the indenter, single-grain diamond scratch surface morphology observation method has gradually developed to comprehensive application of polarizing microscope and scanning electron microscope. Observe the morphology of rock processing surface and the generation and propagation of cracks, and use acoustic emission signals to evaluate the cutting status of rocks. However, due to the complex cutting and cutting processes of hard and brittle materials such as rocks, the study of its cutting mechanism has not yet formed a unified understanding.
Similar to the grinding process, people first studied the mechanism of action between single diamond particles and stone during cutting. Early experimental studies have shown that: When single-grained diamonds cut granites under different conditions, the main failure modes of the rock are brittle collapse; at the same time, according to different mineral compositions, there are still plastic deformations in the rock.
Diamond abrasives make cutting tools even more powerful
The comprehensive review of the sawing mechanism when diamond tools are used to cut hard and brittle materials such as stone, the wear mechanism of diamond tools during sawing, and the research status of sawing forces at home and abroad, and various viewpoints. Due to the complexity of the sawing process of stone and other hard and brittle materials, the understanding of the sawing mechanism is not yet uniform, and the theoretical research on the wear mechanism and sawing force of diamond tools is urgently needed.