Description: vacuum laboratory furnace is widely used for heat treatment of metal materials in high vacuum,recursive,protective atmosphere,also can be used for heat treatment of special materials such as carbonization fiber with excellent thermal insulation.Vacuum Reservoir with water cooling system.The vacuum can reach 7x10^-3 Pa with diffusion pump or molecular pump.
Customized 1600°C High Temperature Inert Gas Atmosphere Box Furnace, ( 3.6 - 36 L Heated chamber) TMAXKBF16Q is a CE certified box furnace designed for materials synthesis under inert gas atmosphere with temperatures up to 1600 ºC.
PLC runs pump - vent dilution sequence with inert gas to remove residual Oxygen. Pump down time is just 30 minutes, until furnace can be run. Turbo pump and diffusion pump options available for high vacuum operation. Can operate at atmospheric pressure in an inert atmosphere.
St-1600vbl-9 Load At The Bottom Vacuum Sintering Furnace With Inert Gas, Find Complete Details about St-1600vbl-9 Load At The Bottom Vacuum Sintering Furnace With Inert Gas,Load At Bottom Vacuum Muffle Furnace,Load At Bottom Intelligent Sintering Furnace,Load At Bottom Vacuum Furnace For Melting from Industrial Furnace Supplier or Manufacturer-Zhengzhou Sutong Electric Equipment Co., Ltd.
Item Number: KSL-1700X-GS KSL1700X-H2 is CE certified box furnace designed for material synthesis under hydrogen or inert gas atmosphere up to 1700 ºC. The furnace consists of high quality alumina fiber bricks and Mo alloy heating elements with a heating chamber of 8"x 8"x12", as well as a vacuum-sealed steel case with water cooling jacket and automatic H2 burning system.
Specifications of atmosphere gas furnaces include 21 in. W x 10 in. H x 20 1/8 in. D cabinet size, 0.15 L/minute monitor flow rate, 120/220 V, 50/60 Hz input, maximum 0.000001 ppm oxygen gettered gas purity, 60 L/minute argon gas flow, 180 L/minute helium gas flow, maximum 90 psig pressure & 1600 W power consumption.
Modern Equipment Co., Inc. provides all kinds of molten metal handling solutions from melting furnaces to foundry ladles. BREAK FREE From Excessive Melting and Maintenance Costs! Achieve FREEDOM from the Hard Work of "Cleaning Melting Furnaces" Very little oxidation in the holding chamber.
Electrode Induction Melting Inert Gas Atomization Systems for Electrodes up to 150 mm Diameter and 1000 mm Length. ALD Vacuum Technology GmbH is the market and technology leader for vacuum inert gas atomizers used in the production of high-quality metal powders.
1700C inert gas vacuum atmosphere furnace can work uner vacuum,nitrogen and other inter gas situation, the furnace is consisted by high quality alumina fiber brick and MoSi2 heating elements .the temperature is controlled by high precise SCR digital controller with accuracy +/-1'C, The furnace is an ideal tool for laboratory heating, annealing
A reducing atmosphere is an atmospheric condition in which oxidation is prevented by removal of oxygen and other oxidizing gases or vapours, and which may contain actively reducing gases such as hydrogen, carbon monoxide, and gases such as hydrogen sulphide that would be oxidized by any present oxygen.
1750°C Muffle Furnace Heat Treatment for Laboratory Equitment; 1400C 12 - 36 L Atmosphere Box Furnace With Bench-Top Inert Gas Vacuum; 1700C UL Standard 3.6 - 36 L Atmosphere Box Furnace with High Temperature Inert Gas; 1600C 8 - 36 L Electric Muffle Furnace With Programmable Controller & Venting Port
Home / Furnaces / Custom Designed Furnaces Return to Previous Page In addition to standard designs, we also manufacture furnaces custom built to exact specifications. Our team of highly knoweledgeable Sales Engineers will work with you through the entire process of configuring your custom furnace.
KSL1700X-GS is CE certified box furnace designed for material synthesis under inert gas atmosphere up to 1700 ºC. The furnace consists of high quality alumina fiber bricks and Mo alloy heating elements with a heating chamber of 8"x 8"x8", as well as a vacuum-sealed steel case with water cooling jacket and vacuum & gas flow control system.
Furnace Atmosphere Vacuum-Inert Gas Partial Pressure Brazing Surface Reactions Oxide Film High-Temperature Brazing (50 to 1 0-5 torr), and the inert gas flow from 20 to 0 L/min (42 to 0 cfh) was con trolled by a needle valve in the inert gas lin e and a n orific i th evacuatio sys tem. Evacuation during the introduction