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Latest update: 2018-12-10 20:48:28.0

Nagao System INC.

NAGAO SYSTEM INC. is company from design to patents acquisition, did not compete with other companies "MONOZUKURI" company! 

Please feel the difference between the conventional high speed 2D motion (critical) and 【unknown area】 high speed 3D rmotion (non critical). The high-speed 3D motion realizing non-criticality enabled non-solidification, high homogeneity mixing, dispersion, milling!

mm or less (Organic / Inorganic) matter can be pulverized, mixed and dispersed up to nano, micron (Dry/Wet type) possible.

Furthermore, it is good to mixure substances of different gravity and viscosity with unused and evenly mixed (3D Reactor) pellicles and feathers.

We manufacture and sell the equipment + special container.

What was considered difficult by conventional 2D motion,
High-speed 3D motion can be expected to further reduce mixing unevenness and further improve milling uniformity.

What is the difference between the conventional high-speed 2D motion and the high-speed 3D motion?
・ Low heat generation
・ High uniformity
・ Nonaggregation
These three points are a big difference.

【Business of Nagao System INC.】
Manufacture, design and sales of electric motors, rotating electricity, scientific instruments equipment, medical equipment.
Design electric and mechanical design consultant.
Differentiated by "Monozukuri" which does not compete with other companies.
We deal with equipments and special container.

【Research, Evaluation, Experiment】
・ (National) Materials and Materials Research Organization(NIMS)
・ Tokyo University of Agriculture and Technology
・ (National) Central Industrial Technology Research Institute(AIST)
The above cooperation is obtained.

【Developed by ourselves and patented】
・ Tilted rotation planetary ball mill
・ 3D Ball Mill (3D Reactor)
The above products can not be imitated by other companies.

【Support ⇒ National institutions, Municipalities】
・ JETRO
・ SME Infrastructure Development Organization
・ Kanagawa Prefecture
・ Kawasaki City
・ Embassy of Thailand
With the cooperation above, sales channels are expanding.

【Strengths of products technology companies】
We do business from design to patents acquisition, competing with other companies "manufacturing" company.
Over the years we have been working on rotating equipment for scientific instruments.
The company pursuing rotary rotation.

Experience
overseas
Inquiry
Main image

Sales Pitch

We are milling and mixing the material below mm to nano level regardless of wet or dry type. It is possible to evenly mix heterogeneous materials with different specific gravity and viscosity.
By utilizing our own 3D ball mill (3D Reactor), we solve the milling, mixing and dispersion which was considered impossible in the past. We mainly sell equipments and accessories for uniformly pulverizing, mixing, and dispersing substances of less than or equal to mm up to nano, micron level.

What is the difference between the conventional high-speed 2D motion and the high-speed 3D motion?
・ Low heat generation
・ High uniformity
・ Nonaggregation
These three points are a big difference.
【3D Ball Mill (3D Reactor)】
・(Organic & Inorganic matter) and (Dry・Wet) possible!
・Breaking substances of less than mm units from micrometers to Nano units.
・ Mixing and dispersion of materials with different specific gravities and viscosities can be done uniformly.
(Reagglomeration prevents nonsolidification.)
・Because the whole container surface is used by frictional force, milling heat hardly occurs. 
Therefore, it is possible to milling, mixure, emulsion and disperse inorganic substances and organic substances.
・By adopting a batch system for vessels, it is possible to pulverize single peaks with high uniformity.
Noncritical motion by high-speed 3D motion
・It is good at milling and mixing which does not destroy the particle shape which made use of frictional force. 
Superior points of the 3D ball mill(3D Reactor) 
①Dry process pulverization without solidification
②Low thermogenesis with spherical motion 
③Uniform pulverization, mixing, emulsion and dispersion
④Non-criticality based on high-speed motion
⑤Uniform mixing without blade
⑥Utilizing friction force and achieved pulverization with maintaining particle form

【Merit】
①Thermogenesis problem in 2D motion pulverization
【Solution】
・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 2D motion pulverization
【Solution】
・Batched pulverization utilizing friction force of high-speed 3D rotation. Rounded particle form and uniform particle size.
③Solidification in 2D motion dry pulverization
【Solution】
・Achieving no solidification by high-speed 3D ritation dry pulverization.
④Uneven 2D motion mixing (because of only one axis)
【Solution】
・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.
【3D Ball Mill (3D Reactor) Recent Device Usage Example】
・Mixing and dispersion of battery materials (positive electrode materials, negative electrode materials).
・Mixing and milling of all solid state battery materials.
・Mixing, dispersion, pulverization of CNT.
・Mixing and dispersion of electroconductive pastes and inks for electroclonics.
(For example, mixing and dispersion having a difference in specific gravity between metals and resins)
・Mixing and dispersion of special inks such as printer.
(For example, metal, mixture of glass and organic solvent, dispersion)
・Mixing and dispersion of fluorescent materials and magnetic materials.
・Mixing and dispersion of photoresist materials.
・Thermoformed in-mold electronics, mixing, dispersion.
・OLED (organic light emitting display), mixing, dispersion.
・Mixing and dispersion of 3D printers.
(Mixing and dispersion of ceramics and resin, etc.)
Mixing and dispersion of organic organic EL materials.
・Emulsion, mixing, dispersion of plural special solvent, acrylic etc.
・Mixing, dispersion, emulsification of medicines and cosmetics sensitive to heat change.
・Optical splitting of pharmaceuticals.

【Target User】
・Companies and universities that make products from materials.
・Companies and universities that make high value added products.
・Things that demonstrate the effect when using fine particles.
・Person who is troubled by uniform mixture with small specific gravity and different viscosity.
・If you are having trouble with reaggregation (solidification).
・People who need help with milling heat. 

【Main purpose of use of the products (milling, mixing, dispersion, etc.)】
・Cosmetics 
・Medicines
・Glass material
・Metals material
・Battery material
・Thermoelectric materials
・Metallurgical materials
・Textile materials
・Liquid crystal materials
・Automotive materials
・Automotive parts materials
・Paints materials
・Chemical materials
・Food materials
・Supplement
・Polymer materials
・Nuclear materials
・Adhesive materials
・Rocks
・Emulsion
・Homogeneous mixing of chemical products such as acrylic
・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
・Others
3D Ball Mill (3D Reactor) is our proprietary products. High speed 3D rotation made it possible to develop new products which was impossible in the past.We propose a new manufacturing.
【Main purpose of use of the products (milling, mixing, dispersion, etc.)】
・Cosmetics 
・Medicines
・Glass materials
・Metals materials
・Battery materials
・Thermoelectric materials
・Metallurgical materials
・Textile materials
・Liquid crystal materials
・Automotive materials
・Automotive parts materials
・Paints materials
・Chemical materials
・Foods materials
・Supplements
・Polymer materials
・Nuclear materials
・Adhesive materials
・Rocks
・Emulsion
・Homogeneous mixing of chemical products such as acrylic
・Conductive pastes for electro industry
・Conductive inks 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
・Organic light emitting display
・Optical resolution of pharmaceuticals.
・Others
【3D Ball Mill (3D Reactor) Recent Equipment Usage Example】
・Mixing and dispersion of battery materials (positive electrode materials, negative electrode materials).
Mixing and milling of all solid state battery materials.
・Mixing, dispersion, pulverization of CNT.
・Mixing and dispersion of electroconductive pastes and inks for electroclonics.
(For example, mixing and dispersion having a difference in specific gravity between metals and resins)
・Mixing and dispersion of special inks such as printer.
(For example, metal, mixture of glass and organic solvent, dispersion)
Mixing and dispersion of fluorescent materials and magnetic materials.
Mixing and dispersion of photoresist materials.
・Thermoformed in-mold electronics, mixing, dispersion.
・OLED (organic light emitting display), mixing, dispersion.
・Mixing and dispersion of 3D printers.
(Mixing and dispersion of ceramics and resin, etc.)
Mixing and dispersion of organic organic EL materials.
・Emulsion, mixing, dispersion of plural special solvent, acrylic etc.
・Mixing, dispersion, emulsification of medicines and cosmetics sensitive to heat change.
・Optical splitting of pharmaceuticals.

【Target User】
・Companies and universities that make products from materials.
・Companies and universities that make high value added products.
・Things that demonstrate the effect when using fine particles.
・Person who is troubled by uniform mixture with small specific gravity and different viscosity.
・If you are having trouble with reaggregation (solidification).
・People who need help with milling heat. 

【Advantages of Introducing 3D Ball Mill (3D Reactor)】
・Manufacturing loss (Irregular) reduction by improving uniformity.
・Creation of innovative materials through improvement of uniformity.
・Reduction of raw material costs by miniaturization and highly uniform mixing.
・Reduction of manufacturing time and personnel cost.
・Introduced manufacturing method which could not be solved by existing equipment. 
(Differentiation from other companies)

【Patents】
・Jap.Pat. 4974283 Clinostat
・Jap.Pat. 5666220 Three-dimention ball mill
・Jap.Pat. 5620088 Waste decomposition
・Jap.L.O. 2012-176331 Three-demention ball mill and ball mill and milling machines
・Jap.Pat. 5620027 Mixing device rotation
・USA.Pat. 6,387,298 B1 Luminescent Materials
【PCT】
PCT/JP2016/063183 Mixing method and rotating device
【Exhibitions Schedule】 
【11th Kawasaki International Eco-Tech Fair】
・Feburary 7(Thu.) to 8(Fri.), 2019
https://www.kawasaki-eco-tech.jp/
Venue:Culttz Kawasaki (Booth No.E-28)
https://www.kawasaki-eco-tech.jp/access.html
Organizer:Kawasaki International Environment Technology Exhibition Committee
We will exhibit our products at our booth.
We look forward to your visit.

【The Ceramic Society of Japan The 2019 Annual Meeting】
March 24(SUN.)-26(TUE.), 2019
http://www.ceramic.or.jp/csj/en/meetings.html
Venue:Kougakuin University(Shinjyuku Campus)
https://www.kogakuin.ac.jp/english/about/campus/accessmaps.html#anchor01
Organizer:The Ceramic Society of Japan
http://www.ceramic.or.jp/index.html
We will exhibit our products at our booth.
We look forward to your visit.

【Japan Society of Powder and Powder Metallurgy The Spring Meeting 2019】
June 4(Tue.)-6(Thr.), 2019
Spring Meeting 2019
https://www.jspm.or.jp/en/event/meeting
Venue:Tokyo Institute of Technology (Suzukakedai Campus)
https://www.titech.ac.jp/english/maps/suzukakedai/
Organizer:Japan Society of Powder and Powder Metallurgy
https://www.jspm.or.jp/en
We will exhibit our products at our booth.
We look forward to your visit. 

【The Ceramic Society of Japan The 33th Fall Meeting 2019】
Sep. 4(Tue.)-6(Thr.), 2019
33th Fall Meeting
Venue:Hokkaido University(Sapporo Campus)
https://www.global.hokudai.ac.jp/maps/?p=sapporo
Organizer:The Ceramic Society of Japan
http://www.ceramic.or.jp/index.html
We will exhibit our products at our booth.
We look forward to your visit.
Etc.
Other overseas bases are currently under consideration.
We are looking for companies that wish to sell, handle and repair our equipment abroad. 

【Bangkok Office】 
Kawasaki City SME Bangkok Office(Asiarna Business Center)
246 Times Square Buildings 15-01, 15-03 Sukhumvit Rd, 
Between Soi 12-14 Klongtoey, Klongtoey, Bangkok 10110 
*Nearest station: BTS Asok station direct connection
TEL:+66-2-653-0898

【Ho Chi Minh Office】
Kawasaki City SME HCMC Office (N-Asset Start-Up Office)
F01-02, Phuong Tower, 31 C Ly Tu Trong, District 1, HCMC
TEL:+84-(0)8-3822-4300 

[Company structure for market development/overseas expansion]
We are now using a sales network based on the overseas sites of Yamato Scientific Co., Ltd. Our own overseas sites are under consideration.
We are looking for 
・Sale trading companies.
・Maintenance companies.
・Purchase visitor desired.
・Collaborative investigation applicant.


[Market share/Ranking]
3D ball mill(3D Reactor), 3D planetary ball mills, and tilted planetary ball mills: 100% (unique products).
Agitators (homogenizers): 30%.
Degassing kneaders: 5%.


[Awards and media coverage]
[Awards]
None.

[Subsidies] 
⑥(Institute) Service Design Promotion Council Fiscal year 2016 correction service etc Productivity improvement IT itroduction support Project cost grant issuance (secondary public offering) We have been adopted 
「500,000YEN」(August 4,2017)

⑤Japan Chamber of Commerce and Industry 
「Second fiscal supplementary budget for 2016」
It was adopted as a small business subsidy.
We have adopted for the second consecutive year.
「500,000YEN」(March 17, 2017)

④The Japan Chamber of Commerce and Industry
It was adopted as a small business subsidy subsidy.
「880,000YEN」  (July 15, 2016)

③Kawasaki Municipal Government was adopted as a corporate subsidy for manufacturing products.
「150,000YEN」  (June 20, 2016)

②Development of prototype development of a new method three-dimensional ball mill equipped with constant temperature function
 2014 Fixed Monodzukuri, Commercial and Service Innovation Subsidy 1 It was adopted as the next auxiliary business operator.
We have adopted for the second consecutive year.
 「6,490,000YEN」 (June 2015)

①It was adopted as a subsidiary of "New Mechanical Alloy by Three-Dimensional Ball Mill".
Adoption results of secondary public offering of 2013 Fiscal Year "Small Business / Small Business Operator Monodzukuri, Commercial and Service Innovation Project" etc.
「4,890,000YEN」 (September 29, 2014) 

[Media] 
TV Asahi, "Torisetsu" (March 24, 2005).
Nihon Keizai Shimbun, "Rare metals easy to recover" (December 18, 2009).
Our 3-D ball mills were introduced on page 117 of "Japan as the top resources power in the world" written by Hikaru Hiranuma and published by Kodansha Ltd. (March 20, 2011).
Our 3-D ball mills were introduced on page 101 of "Development of urban mines illustrated for easy understanding" written by Kohmei Harada and Ichiro Daigo and published by Nikkan Kogyo Shimbun, Ltd. (August 30, 2011).


[Joint research and development]
National Institute for Materials Science (Tsukuba City, Ibaraki): Crushing and Recycling for Urban Mining. Shibaura Institute of Technology, Fujiki Laboratory (Omiya City, Saitama): Crushing and Recycling for Urban Mining. National Institute of Advanced Industrial Science and Technology (Nagoya City, Aichi): Apatite coating
[Presentations at academic conferences] 
Date (month): November 2015.
Title: Basic characteristic research on 3D ball mills. 
Author (Affiliation): Fumiyosho Nagao (Nagao System), Mitsuhiro Inagaki (Shibaura Institute of Technology, Graduate School), Akira Fujiki (Shibaura Institute of Technology),Tatsuhiko Ohsuga(Shibaura Institute of Technology),Reina Akina (Shibaura Institute of Technology), Kohmei Harada(National Institute for Materials Science).
Presenting society: Japan Society of Powder and Powder Metallurgy. 

Date (month): May 2013.
Title: Volume reduction of cesium-contaminated soil using classification and 3D ball mills. 
Author: Daisuke Nagao (Nagao System), and Kohmei Harada and Seiichi Kato (National Institute for Materials Science). Presenting society: Japan Society of Powder and Powder Metallurgy. 

Date (month): May 2012.
Title: Basic characteristic research on 3-D ball mills. 
Author (Affiliation): Daisuke Nagao (Nagao System), Osamu Tezuka (Shibaura Institute of Technology, Graduate School), Akira Fujiki (Shibaura Institute of Technology), (National Institute for Materials Science), Kohmei Harada (National Institute for Materials Science), and Kiyoshi Ijima (National Institute for Materials Science). 
Presenting society: Japan Society of Powder and Powder Metallurgy. 

Date (month): May 2012.
Title: Basic research concerning the use of 3-D ball mills for electronic board recycling. 
Author (Affiliation): Daisuke Nagao (Nagao System), Atsuki Sugibayashi (Shibaura Institute of Technology, Graduate School), Akira Fujiki (Shibaura Institute of Technology), Kohmei Harada (National Institute for Materials Science), and Kiyoshi Ijima (National Institute for Materials Science). 
Presenting society: Japan Society of Powder and Powder Met
[Factory (domestic)]
Kawasaki city

[Factory (overseas)]
nothing

[Other sites]
nothing

[Transaction form]
Cash, or bank transfer by the 20th of the next month.

[Transaction terms]
Notes not acceptable; check, cash, or bank transfer only.

[Main Clients / Business History (domestic)]
・ 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 Scho

Catalogue/Pamphlet/Proposed

Leaflet(English version).pdf

Other presentation

[Business description]
Articles of Association 
・ Manufacture of electric motor, rotary electric machine
・ Manufacturing of scientific instrument equipment
・ Manufacture of medical equipment
・ Electric and mechanical design consultant
Mainly our company, design manufacturing products 
・ Physicochemical stirrer
・ Defoaming stirrer
【Tilted Rotation Planetary Ball Mill】
・ (Small Size) Tilted Rotation Planetary Ball Mill 「Planet M2-3F」
・ (Small Size) Tilted Rotation Planetary Ball Mill (Glove box insertion model) 「Planet Min (-F)」
・ (Medium Size) Tilted Rotation Planetary Ball Mill 「Planet 750F」
・ (Small Size) Tilted Dispersion Homogenizer 「Planet HF」
【3D Ball Mill(3D Reactor)】
・ (Medium Size) Separate type 2-axis control 3D Ball Mill(3D Reactor) 「3DB-210」
・ (Small Size) Separate type 3D Ball Mill(3D Reactor) (Glove box insertion model)「3DB-80」
・ (Small Size) Separate type 3D Ball Mill(3D Reactor) (Glove box insertion model)(PC control version)「3DB-80(PC)」

【Centrifuge】
・ H-200NA
・ H-200NR
・ H-108NA
【Ozone generation power supply】
・ DP-01A
【Steel tire cord winding device】
  ・ FGW-8

[Industry]
Manufacturing industry

[Strength of products/technologies]
NAGAO SYSTEM INC. is a professional group that solves milling, mixing and dispersion, which was considered impossible in the past by high-speed rotation utilization of patented 3D Ball mill (3D Reactor).

mm or less (Organic / Inorganic) matter can be pulverized, mixed and dispersed up to nano, micron (Dry/Wet type) possible.

Furthermore, it is good to mix substances of different gravity and viscosity with unused and evenly mixed (3D Reactor) pellicles and feathers.

We manufacture and sell the equipment + special container.

Please feel the difference of the unknown area high speed 3D motion from the conventional 2D motion.

This company is recommended by the following support organizations.

Kanto Head Office

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