Capacitance: 1000PF Loss: less than 3.5% Accuracy: -20% + 20% Material properties: X7R Rated voltage: 100VDC Withstand voltage: 300VDC Insulation resistance: 3000MT emperature range: -55 + 125
Place of Origin: Brand Name:LCA Description:Capacitors Capacitance:0.047uF--100uF Application:General Purpose Dissipate Factor:1% Certificate:ROHS Type:Polypropylene Film Capacitor Package Type:Surface Mount Operating Temperature:-40 C to +85 C Tolerance:-+5% Rated Voltage:100VDC/250VDC/630VDC
Place of Origin:Fujian Brand Name:LCA Model Number:L6050-021BN Description:Capacitors Capacitance:2200pf Rated Voltage:250VAC Product name:screw feedthrough capacitors PAYMENT:Paypal\\TT\\Western Union\\Trade Assurance Material:X7R Certificate:RoHS/CE/ISO9000 Size:Custom Size Package:Standard Package Capacitance tolerance:
Features Capacitance :0.01F Dissipation Factor :3.5% Capacitance Tolerance :-20%+80% Temp Characteristics :X7R Rating Voltage :100VAC D.W.V. :300VAC Current :7 I.R. 100vdc :1000M Operating Range :-55+125
Features Capacitance :3300pF Dissipation Factor : 3.5% Capacitance Tolerance :-20%+80% Temp Characteristics :Y5V Rating Voltage :250VAC D.W.V. :1000VAC Current :20A I.R. 100vdc :3000M Operating Range :-55+125
The production of high-precision metals is inseparable from high-end manufacturing equipment, testing equipment and a stable production environment. In order to meet these conditions, Zhengdao Machinery has specially built a mold production workshop covering an area of 2,000 square meters. The mold workshop is equipped with various mold processing and manufacturing process equipment, including wire cutting, precision engraving machines, spark machines, four-axis turning and milling compound machine tools, turning and milling compound machining centers, three-axis machining centers, CNC lathes, drilling machines and other mold production equipment. The processing equipment brands are OKUMA, FANUC, Jinshang, and Harting well-known brands. All equipment has the production capacity to manufacture high-precision molds. The company employs professional technical consultants in terms of mold manufacturing talents for mold design and mold manufacturing to ensure the stability of mold production quality. There are 5 senior technicians in the production link, with more than 15 years of production experience and technology, and product production has strict quality process, manufacturing cost and delivery time control, and has a group of high-quality and highly skilled staff; at the same time, we also have independent and complete after-sales service. Testing equipment: Hexagon 3D coordinates, Tokyo precision profiler, metallographic microscope, hardness tester, a full set of processing and testing instruments. Professional quality inspectors conduct all-round testing on the shipped products to ensure that the quality of the shipped products is 100% qualified.
ASTM B564 Inconel 600 Weld-Neck Flange-A-B, ASTM B564 Inconel 600 Forged Flange, UNS N06600 Swrf Flange, JIS NW 600 Lap-Joint Flange, UNS N06600 RTJ Flange, ASTM B564 Inconel 600 Square Flange, UNS N06600 Loose Flange, DIN 2.4816 Sorf Flange, JIS NW 600 Slip-On Flange.
JIS NCF 625 Electropolished Pipe, JIS NCF 625 Alloy Instrumentation Capillary Tube, UNS N06625 Thin Wall Pipe, UNS N06625 Slot Round Pipe, ASTM B444 Inconel 625 Boiler Tube, UNS N06625 Cold Drawn Seamless Tube, Werkstoff Nr. 2.4856 Fabricated Pipes, Werkstoff Nr. 2.4856 Polished Pipes.
UNS N06022 Exhaust Pipe, Werkstoff Nr. 2.4602 Air Pre Heaters Tubes, JIS NW 6022 Oamental Tubes, Werkstoff Nr. 2.4602 Custom Pipe, UNS N06022 Rectangular Pipes, Werkstoff Nr. 2.4602 IBR Pipe, ASTM B619 Hastelloy C22 U Tube, ASTM B619 Hastelloy C22 Boiler Tube, ASTM B619 Hastelloy C22 Thick Wall Pipe.
Model Number: DW-ESS 100-500KW Communication Port: RS485, CAN, 4G, LAN Grid Type: Hybrid/Off Grid Cooling: Air Cooling Certification: UL CE UN38.3 MSDS ROHS IEC Cycle Time: Core component life >15 years 6000 cycle life Warranty: 10 Years
Ferrite-Pearlite ductile iron is a type of ductile iron known for its high strength and toughness, with its primary microstructure consisting of ferrite and pearlite. This material exhibits excellent wear resistance and corrosion resistance, as well as high fracture toughness and ductility. It finds wide applications in various industries: In the mechanical manufacturing sector: Manufacturing components such as machine tool bodies, mechanical parts, reducers, and hydraulic cylinder sleeves. In the automotive manufacturing sector: Manufacturing components such as cylinder blocks, cylinder head covers, and crankshafts for automotive engines. In the energy sector: Manufacturing components such as turbochargers, centrifugal pumps, and gears. With continuous technological advancements, it is believed that Ferrite-Pearlite ductile iron will continue to find increasingly widespread applications in the future.
High-silicon molybdenum ductile iron (5% silicon content) finds extensive applications in high-temperature castings for automotive engines, particularly in exhaust systems (e.g., exhaust pipes, turbocharger housings, valve bodies, valve discs, etc.). This is primarily due to its excellent properties including high-temperature resistance, thermal fatigue performance, outstanding oxidation resistance, and good high-temperature creep resistance. Our company has now developed precision-cast high-silicon molybdenum ductile iron valve discs, valve bodies, and other castings, featuring high dimensional accuracy, delicate appearance, and excellent performance, which have been utilized in exhaust systems for heavy-duty trucks.
Product Application: Applied to the first groove of aluminum pistons in internal combustion engines, primarily used in diesel engine aluminum pistons, with aftermarket sales predominating. Features: 1. Integration of Wear-Resistant Insert Rings with Internal Cooling Channels through brackets offers several advantages over pistons simultaneously using insert rings and salt cores: (1) Single positioning reduces operational and process difficulties and CT time, improving production efficiency. (2) Before casting, simple shot blasting and preheating of wear-resistant insert rings are sufficient, eliminating the need for separate treatment (3) Reduces quality loss caused by using salt cores, enhancing piston yield.(4) Decreases flushing procedures and costs associated with salt cores. (5) Minimizes wastewater handling and management. 2. Customized Design: Tailored design of bracket-type internal cooling channel wear-resistant insert rings to meet diverse piston and industry requirements, ensuring optimal adaptability. 3. Material: The wear-resistant insert rings are made of high-nickel austenitic cast iron, while aluminum pistons are typically made of silicon-aluminum alloy. Their similar coefficients of expansion form the basis for the application of wear-resistant insert rings in the first groove of pistons. Wear Resistance: High-nickel austenitic cast iron exhibits outstanding wear resistance, optimizing friction with piston rings at high temperatures, thereby increasing piston lifespan. Thermal Conductivity: The material boasts excellent thermal conductivity, facilitating heat transfer and dissipation to maintain piston head temperature within a reasonable range. Corrosion Resistance: Strong corrosion resistance enables adaptation to various working environments, ensuring stability under different conditions. Environmental Friendliness: Prolonging piston lifespan ensures combustion chamber sealing during piston operation, enhancing combustion efficiency, and reducing exhaust emissions. Precision Machining: Precise machining techniques during manufacturing ensure products meet design requirements, enhancing performance.
Product Application: Ceramic salt cores are primarily used in the casting process of liquid forging aluminum alloy pistons. By forming cavities inside the piston, ceramic salt cores help achieve an internal cooling structure for the piston. Features: High Strength: By adding ceramic additives, ceramic salt cores achieve high strength, enhancing their ability to withstand high temperatures and pressures of aluminum liquid. High Density: Multiple granulation techniques are employed to achieve high density in ceramic salt cores, contributing to the overall quality of the castings. Low Linear Expansion Coefficient: Through innovative sintering techniques, ceramic salt cores achieve a low linear expansion coefficient, reducing the impact of thermal expansion on aluminum alloy pistons. Ceramic salt cores are typically used in the casting of liquid forging aluminum alloy pistons. Compared to traditional salt cores, ceramic salt cores meet the requirements of high-pressure casting processes for salt cores by increasing ceramic additives, using multiple granulation techniques, and innovative sintering techniques to achieve high strength, high density, and low linear expansion coefficient performance.
Product Application: Forming of complex cavities inside aluminum castings. Features: 1. Compared to ring-shaped piston salt cores, irregular-shaped salt cores, through optimized process upgrades, can produce salt core products of any shape. 2. Irregular-shaped salt cores have higher strength than ordinary piston salt cores. 3. Compared to sand cores and ceramic cores, they are easier to clean and have better surface finish. 4. Widely applicable in the forming of cavities in aluminum alloy products. (1) New salt cores applied to all lightweight castings' internal cavities. Advantages: Currently, most lightweight castings use resin sand cores to form complex internal cavities. During later cleaning, sand sticking may occur locally, making it difficult to clean the internal cavities, which is an unavoidable technical problem. The development of new salt cores can easily solve the problem of difficult sand cleaning in castings. Salt dissolves in water, and only water flushing is needed to meet the technical requirements for removing internal core sand. The use of salt cores in the piston field is already a very mature technology. The new salt core is an extension of piston salt core technology. (2) New salt cores applied to difficult-to-machine areas of injection-molded products. Advantages: For products with difficult-to-machine areas in the later stages of injection molding, new salt cores can be used to directly form the parts that need to be machined later. Place the salt core in the mold before injection molding. This eliminates the technical difficulties of difficult machining in the later stages.
Product Application: Used in the first groove of aluminum pistons in internal combustion engines, initially applied to diesel engine aluminum pistons, with wear-resistant insert rings widely used and promoted on gasoline engine aluminum pistons in recent years as industry demands for gasoline engine pistons have increased. Features: Compared to traditional aluminum pistons, pistons with insert rings have seen an average increase in lifespan of 5-8 times, enhancing energy utilization and combustion efficiency, while reducing emissions. Additionally, it significantly improves the performance and reliability of internal combustion engines. Material: The wear-resistant insert rings are made of high-nickel austenitic cast iron, while aluminum pistons are typically made of silicon-aluminum alloy. Their similar coefficients of expansion form the basis for the application of wear-resistant insert rings in the first groove of pistons. Wear Resistance: High-nickel austenitic cast iron exhibits outstanding wear resistance, optimizing friction with piston rings at high temperatures, thereby increasing piston lifespan. Thermal Conductivity: The material boasts excellent thermal conductivity, facilitating heat transfer and dissipation to maintain piston head temperature within a reasonable range. Corrosion Resistance: Strong corrosion resistance enables adaptation to various working environments, ensuring stability under different conditions. Environmental Friendliness: Prolonging piston lifespan ensures combustion chamber sealing during piston operation, enhancing combustion efficiency, and reducing exhaust emissions. Precision Machining: Precise machining techniques during manufacturing ensure products meet design requirements, enhancing performance.
Shandong Jingbo Group Co., Ltd. registered capital of $9 million, covers an area of more than 90 thousand square meters, has 4 subsidiaries. Jingbo Group is an advanced enterprise which is committing itself to research, development, design, production, sculpture, painting, baking and export, which provide one-stop service to customers. The company gathered a group of experienced professionals, and import most advanced foreign technology and equipment. Won consumerâ??s trust and support depending on our high quality goods and best service. Shandong Jingbo Group Co., Ltd. warmly welcome guests to visit us, promote cooperation and seek common development.
This equipment can handle medical waste such as medical infection, injury and pathology, and carry out harmless disposal of medical waste. Equipment integrated design, a full set of equipment low energy consumption, automatic operation, simple operation, anytime and anywhere treatment of medical waste, fixed, mobile can be customized according to demand, convenient and flexible. Microwave disinfection treatment system is an integrated equipment, the equipment at least by automatic feeding unit, shredding unit, microwave disinfection sterilization unit, steam heating system, discharging unit, , exhaust dedusting systems and alarm system.
This equipment can handle medical waste such as medical infection, injury and pathology, and carry out harmless disposal of medical waste. Equipment integrated design, a full set of equipment low energy consumption, automatic operation, simple operation, anytime and anywhere treatment of medical waste, fixed, mobile can be customized according to demand, convenient and flexible. Microwave disinfection treatment system is an integrated equipment, the equipment at least by automatic feeding unit, shredding unit, microwave disinfection sterilization unit, steam heating system, discharging unit, , exhaust dedusting systems and alarm system.
Chlorhexidine Gluconate solutions IP. 2.5% With Ethyl Alcohol IP. 70%% with moisturizer.
