Application area
Etrex gloveboxes and various solutions are widely used in physics, chemistry, materials science, photovoltaics, biology, medicine, military industry, metallurgy, electronics, semiconductors, new energy, nuclear industry, aerospace, additive manufacturing, and other fields.
Battery
■ Chamber dimensions: glovebox configured according to the electrolyte-filling machine
■ Material: full stainless-steel construction(Type 304), surface metal
brushing process; thickness 3 mm
■ Control system: includes self-diagnosis and power-failure auto-restart
features, with pressure control and adaptive functions
■ Automatic control, circulation control, password protection; vacuum
chamber control uses LCD display
■ The control unit uses German Siemens PLC with touchscreen operation
3Dprint
3D printing technology, as a cutting-edge and pioneering emerging technology,has a disruptive significance and role in the transformation of traditional manufac-turing processes and the widespread application of new materials. The 3D printed glove box (additive manufacturing protective glove box) manufactured by Itex is designed for the environment required for the processing of special aerospace com- ponents. The 3D printing equipment generally adopts two types: powder feeding molding or powder spreading molding. Each molding equipment requires different glove box design requirements. Itex designs glove boxes according to different customer requirements and provides reliable and complete solutions.
Vacuum coating
The vacuum coating system provided by Itex is integrated with a vacuum coating system and a vacuum glove box system. It can complete thin film evaporation in a high vacuum evaporation chamber, and store, prepare, and detect samples after evaporation in a high-purity inert gas atmosphere in the glove box. The combination of evaporation coating and vacuum glove box enables fully enclosed production of evaporation, packaging, testing and other processes, highly integrating the entire film growth and device preparation process into a complete controllable environmental atmosphere system, eliminating the influence of unstable factors in the atmo-spheric environment during large-area circuit preparation, and ensuring the preparation of high-performance, large-area organic optoelectronic devices and circuits.
Laser he rmetic sealing
Thesemiconductorchipweldinggloveboxisdesignedforresearchinmaterialsscience,chemistry,semi-conductors,andrelatedindustries:ahigh-quality,standardizedlaser-weldinggloveboxsystemthatmeets applicationrequirementsforlaserweldinginspecificinertatmospheres.Thelaserpackagingweldingsystem canweldvariousmetalalloys—suchasstainlesssteel,Kovaralloys,aluminum,andcopper—underamois-ture-freeandoxygen-freeenvironment.UsingGermanyBASFdeoxygenationmaterialsandU.S.UOPhigh-ef-ficiencydesiccant,thewaterandoxygenconstituentsinthegloveboxcanbecontinuouslymaintainedover thelongterminahighlycleanandhigh-puritygasenvironment;manual/automaticcontrolofsystempres-sure;manual/automaticcontrolofthesystem’spurificationstate;automaticcontrolofthereduction processofthegaspurificationsystem;automaticpromptsandalarmfunctions;systemcontrolparameter settings;systemparameterlogging;operating-conditionmonitoringofsystemactuators;thetransparent frontpanelmakesoperationmoreconvenientandeasy,anditiswidelyappliedtoMOCVDtechnologyinthe semiconductorindustry.
Etelux Glove box for Your Application
