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UBE MATERIAL IND LTD

Overview
  • Total Patents
    357
  • GoodIP Patent Rank
    38,260
  • Filing trend
    ⇧ 50.0%
About

UBE MATERIAL IND LTD has a total of 357 patent applications. It increased the IP activity by 50.0%. Its first patent ever was published in 1996. It filed its patents most often in Japan, Republic of Korea and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets materials and metallurgy, basic materials chemistry and electrical machinery and energy are NABALTEC AG, TATEHO CHEMICAL INDUSTRIES CO LTD and YABASHI IND CO LTD.

Patent filings per year

Chart showing UBE MATERIAL IND LTDs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Ueki Akira 82
#2 Kato Yuzo 59
#3 Watanabe Takayuki 42
#4 Inagaki Toru 37
#5 Noguchi Seiji 36
#6 Arita Hiroshi 34
#7 Okada Fumio 33
#8 Yamamoto Shinichi 28
#9 Watanabe Takashi 28
#10 Misumi Osamu 28

Latest patents

Publication Filing date Title
WO2016088867A1 MgO SPUTTERING TARGET MATERIAL AND THIN FILM
WO2015137436A1 Purification treatment container and purification treatment method for alkaline earth metal oxide agglomerate having contaminated surface
WO2015072361A1 Plant disease control agent, and plant disease control method
KR20160075563A Needle-like strontium carbonate fine powder and method for producing same
JP2015193488A Strontium carbonate fine powder and method for producing the same
JP2015188841A Method of inhibiting malodor of grease trap
JP2015160755A Production method of boehmite, and boehmite
JP2014147927A Moisture adsorbent and method for producing the same
WO2014104286A1 Coated phosphor particles and manufacturing process therefor
JP2015120959A ZnO TARGET MATERIAL AND TRANSPARENT CONDUCTIVE FILM
JP2015120960A ZnO TARGET MATERIAL AND TRANSPARENT CONDUCTIVE FILM
JP2015086340A White light-emitting phosphor and white light-emitting device
CN104755424A Magnesium oxide powder
JP2015083522A Fine powder of needle strontium carbonate
US2014093735A1 Acicular strontium carbonate fine powder treated with a combination of compounds containing a polyoxyalkylene group
JP2015059050A Thermally conductive filler, and thermally conductive resin composition containing the same
JP2015049083A Processing method of radioactive contaminants contaminated by radioactive substances
JP2015010025A Alkaline earth metal compound fine particle dispersion and method for producing the same
US2015102261A1 Phosphor mixture having optimized color rendering properties and emission intensity of emitted light in visible region
JP2014214222A Thermally-conductive filler and production method thereof and resin composition