1-9-30, Katahira, Kawasaki Shi Asao Ku, Kanagawa TEL: +81-449544486

enterprise identification number : 5020001093400

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Industry&Technology Table-top type 2-axis 3D Ball Mill

During milling, the 3D Ball Mill does not generate milling heat or solidification. Specializes in uniform crushing, mixing, and dispersion.

【(Medium Size) Separate type 2-axis control 3D Ball Mill 「3DB-210」(3D Reactor) 】
【PC control version (Manual & Program operation) available】
Since there are no critical rotation limit in rotating ball mill and segregated distribution of the sample in the common planetary ball mill, highly efficient pulverization (milling) , mixture, dispersion, emulsification or mechano-chemical reactions are expected due mainly to give energy to the sample quite uniformly through the 3D rotation with two-rotation axes.
★ For milling,「3D Ball Mill」
★ For mixture, dispersion, emulsification「3D Reactor」
It is possible to do.
【Main features】
・ Nano milling, mixture, dispersion, emulsification
・ Mechanochemical reaction.
・ Mechanical alloying.
・ Amorphous.
・ Dry non-solidification pulverization, mixture, dispersion, emulsification.
(3D milling and mixing do not give time to solidify without being affected by gravity.)
・ Small heat generation during pulverization, mixture, dispersion, emulsification.
(Because the milling ball and milling / mixture collide with the whole container surface, impact heat is dispersed.)
・ It can also be used for mixing substances with different specific gravity and viscosity.
(It can be used as a 3D Reactor.)

The container diameter is 210 mm at maximum.
The product specifications are as follows:
・Equipment housing color : gray, white

・Dimension: W380mm x D420mm x H370mm
・Weight: 36kg

・Vibration isolation table (Option): W 680mm x D 370mm x H 16mm
・Weight: 32kg

・Main axis(Upper and lower direction) Revolution speed: 0~250rpm
・3D axis(Left and right direction) Revolution speed: 0~250rpm 
・(Main axis + 3D axis rotation speed= 0 to 500 rpm)
・Reverse operation possible (2D tumbling ball mill and 3D ball mill switchable).
・Power supply: Two DC brushless motors (AC100V or 220V, 300W).
・Container: Diameter 210 stainless steel (semi-) spherical container, etc.
・Option: 700ml zirconia container attachable.
・1 batch throughput: Metal container about 100g(ml)~1,200g(ml)
            Ceramics container about 100g(ml)~500g(ml)
★Design and specifications are subject to change without notice.

strong point of product
Superior points of the 3D ball mill(3D Reactor)
①Dry process pulverization, mixture, dispersion without aggragation
②Low thermogenesis with spherical motion
③Uniform pulverization, mixing and dispersion
④Non-criticality based on high-speedmotion
⑤Uniform mixing without blades
⑥Utilizing friction force and achieved pulverization, mixture, dispersion with maintaining particle form

①Thermogenesis problem in high-speed 2D motion pulverization, mixture, dispersion
・Utilizing the entire inner area of the container promotes the dispersion of frictional heat and its generation. Effective with organic and inorganic substances.
②Uneven particle size in high-speed 2D motion pulverization, mixture, dispersion
・Batched pulverization, mixture, dispersion utilizing friction force of high-speed 3Dmotion. Rounded particle form and uniform particle size.
③Solidification in 2D motion dry pulverization, mixture, dispersion
・Achieving no solidification by high-speed 3D motion dry pulverization, mixture, dispersion .
④Uneven high-speed 2D motion mixing (because of only one axis)
・Without blade. High-speed 3D motion makes it possible to use entire inner area of container efficiently. Low thermogenesis and uniform mixing can be achieved.
delivery record
・ National Institute of Advanced Industrial Science and Technology (Tsukuba, Ibaraki)
・ Saitama University Faculty of Engineering (Saitama Prefecture Saitama City)
・ Kobe University Graduate School of Materials Science (Nada Ward, Kobe City)
・ Tohoku University Metal Materials Research Institute (Aoba-ku Sendai)
・ Waseda University Memorial Materials Technology Laboratory (Shinjuku-ku, Tokyo)
・ Tokyo Science University Faculty of Science Department of Physics (Shinjuku-ku, Tokyo)
・ National Miyagi Industrial College of Technology (Natori City, Miyagi Prefecture)
・ Saga University Faculty of Science and Technology (Saga City, Saga Prefecture)
・ Semiconductor Research Promotion Semiconductor Research Institute (Aoba-ku, Sendai City)
・ Tohoku University Multiple Material Science Laboratory (Aoba-Ku Sendai City)
・ Faculty of Engineering, Osaka Prefecture University (Sakai City, Osaka Prefecture)
・ Fukui National College of Technology (Sabae City, Fukui Prefecture)
・ Gakushuin University Faculty of Science Faculty of Physics and Physics (Meguro-ku, Tokyo)
・ Nihon University School of Science and Technology (Chiyoda Ward, Tokyo)
・ Waseda University Faculty of Engineering (Shinjuku-ku, Tokyo)
・ Aichi Prefectural Institute of Industrial Technology (Kariya city, Aichi prefecture)
・ Tohoku University Faculty of Engineering (Aoba-ku, Sendai-shi, Miyagi)
・ University of Tokyo Faculty of Engineering (Bunkyo Ward, Tokyo)
・ Faculty of Engineering, Toyama Prefectural University (Imizu City, Toyama Prefecture)
・ Hyogo Prefectural University Graduate School of Engineering (Himeji City, Okayama Prefecture)
・ Tokyo City University Faculty of Engineering (Setagaya Ward, Tokyo)
・ Hokkaido University Materials Research Center (Hokkaido Sapporo City)
・ AIST New Fuel Vehicle Technology Research Center (Tsukuba, Ibaraki)
・ Faculty of Engineering, Tokyo Metropolitan University (Hachioji City, Tokyo)
・ Shinshu University Faculty of Textile Science (Ueda City, Nagano Prefecture)
・ Tottori University Faculty of Engineering (Tottori Prefecture, Tottori City)
・ Tokyo University of Agriculture and Technology Faculty of Engineering (Koganei-shi, Tokyo)
・ Akita Prefectural University Faculty of Engineering (Yuri Honjo City, Akita Prefecture)
・ Hyogo prefectural university (Hyogo prefecture Himeji city)
・ National Institute of Nuclear Technology Development (Tokai-mura, Naka-gun, Ibaraki)
・ The University of Tokyo Institute of Industrial Science (Shinjuku-ku, Tokyo)
・ Saitama University Faculty of Engineering (Saitama Prefecture Saitama City)
・ Prefectural Ishinomaki Industrial High School (Ishinomaki-shi, Miyagi Prefecture)
・ Hosei University Faculty of Life Science (Koganei-shi, Tokyo)
・ Faculty of Engineering, Kyushu University (Nishi Ward, Fukuoka City, Fukuoka Prefecture)
・ National Institute for Materials Science (Tsukuba City, Ibaraki Prefecture)
・ Osaka Prefectural National College of Technology (Osaka-shi, Osaka)
・ National Institute of Occupational Safety and Health (Kiyose City, Tokyo)
・ Hyogo Prefectural University Graduate School of Engineering (Himeji City, Hyogo Prefecture)
・ Meiji University Faculty of Engineering (Kawasaki City, Kanagawa Prefecture, Tama Ward)
・ Shinshu University Faculty of Textile Science (Ueda City, Nagano Prefecture)
・ Saitama University Faculty of Engineering (Saitama Prefecture Saitama City)
・ Tokyo Metropolitan Industrial Technology College (Arakawa-ku, Tokyo)
・ National Institute of Advanced Industrial Science and Technology (Tsukuba city, Ibaraki prefecture)
・ Toyohashi University of Science and Technology Faculty of Electrical and Electronic Information Engineering (Toyohashi City, Aichi)
・ Shimane University Education Faculty (Shimane City, Shimane Prefecture)
・ Faculty of Engineering, Yamanashi University (Kofu City, Yamanashi Prefecture)
・ Faculty of Engineering, Ibaraki University (Hitachi City, Ibaraki)
・ University of Tokyo Faculty of Engineering (Kashiwa City, Chiba Prefecture)
・ Tokyo University of Science Engineering (Katsushika-ku, Tokyo)
・ Josai University of Pharmaceutical Sciences (Sakado City, Saitama Prefecture)

【Field list of company using our products】

Many large companies that are focused on research and development in Japan, overseas have purchased many.

For the convenience of confidentiality obligation, the company name has not been posted.

~Other, universities, laboratories etc.

*At the time of delivery, concerning customers who have been requested not to perform actual results, they have not been posted yet.

Many customers have been purchasing those who wish to differentiate themselves from other companies.

Thank you very much indeed. We hope in the future as well.
purpose of use,
business category,
【Main Purpose Of Our Products (Pulverization, Mixing, Dispersion etc.)】
・Glass materials
・Metal materials
・Battery materials
・Thermoelectric materials
・Metallurgical materials
・Mineral materials
・Textile materials
・Liquid crystal materials
・Battery materials
・Ceramic materials
・3D printer materials
・Automotive materials
・Automotive parts materials
・Paint materials
・Chemical materials
・Food materials
・Polymer materials
・Nuclear materials
・Adhesive materials
・Adhesive materials
・Powder coating materials
・Electrode materials
・Rock materials
・Homogeneous mixing of chemical products such as acrylic
・Ceramics material for Molding
・Metals material for Molding
・Conductive paste for electro industry
・Conductive ink for electro industry
・Silver nanoparticles
・3D Anthena
・Thermoformed in-mold electronics
・ITP substitution
・OLED light market
・Electronic component materials
・Various sensors
・Printed thin film transistor
・Electromagnetic shield

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