#Irifune
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#やすらぎ はビルの2階にある立地から初見の人は入りづらそうですね。 #東京都 #中央区 #入舟 #建築 #建物 #建物探訪 #レトロ #レトロ建築 #ノスタルジー #昭和 #tokyo #chuo #irifune #architecture #retro #oldarchitecture #showa (中央区 (東京都)) https://www.instagram.com/p/CplStGQywpz/?igshid=NGJjMDIxMWI=
#やすらぎ#東京都#中央区#入舟#建築#建物#建物探訪#レトロ#レトロ建築#ノスタルジー#昭和#tokyo#chuo#irifune#architecture#retro#oldarchitecture#showa
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免費入場,擁有著寧靜與絕美的觀景台,能一賞進出新潟港的船舶,更是作為川底河床隧道的通氣塔之用,東、西岸姊妹塔之一的「入船港口展望台」!
#巡日#旅行#出國#日本海#信濃川#川底隧道#姊妹塔#入船港口展望塔#新潟#新潟自由行#巡日旅行攝#Japan#Travel#Irifune#Minato#tower#入船みなとタワー#入船町#にいがた#にほんこく#RoundtripJp
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#ukiyo-e#Keisai Eisen#japan#japanese#渓斎英泉#Otonashisô Tsukuda Shinchi no irifune#Twelve Views of Modern Beauties#Edo period#Woodblock print
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Irifune park, Yokohama city, Kanagawa pref.
April, 7th, 2024
#leica#photographers on tumblr#black and white photography#original photographers#street photography#light and shadow#trees#cherry blossom
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Pickling Steel Market, Global Outlook and Forecast 2022-2028
The global Pickling Steel market was valued at million in 2021 and is projected to reach US$ million by 2028, at a CAGR of % during the forecast period 2022-2028.
The U.S. Market is Estimated at $ Million in 2021, While China is Forecast to Reach $ Million by 2028.
Download FREE Sample of this Report @
https://www.24chemicalresearch.com/download-sample/179588/global-pickling-steel-forecast-market-2022-2028-515
Pickling Steel Strip Segment to Reach $ Million by 2028, with a % CAGR in next six years.
The global key manufacturers of Pickling Steel include Asian Steel Corporation, ArcelorMittal, Servosteel, New Zealand Steel, Samuel, Worthington Industries, Tata Group, Wuppermann AG and IRIFUNE KOZAI, etc. In 2021, the global top five players have a share approximately % in terms of revenue.
We has surveyed the Pickling Steel manufacturers, suppliers, distributors and industry experts on this industry, involving the sales, revenue, demand, price change, product type, recent development and plan, industry trends, drivers, challenges, obstacles, and potential risks.
Total Market by Segment:
Global Pickling Steel Market, by Type, 2017-2022, 2023-2028 ($ Millions) & (K MT)
Global Pickling Steel Market Segment Percentages, by Type, 2021 (%)
Pickling Steel Strip
Pickling Steel Plate
Other
Global Pickling Steel Market, by Application, 2017-2022, 2023-2028 ($ Millions) & (K MT)
Global Pickling Steel Market Segment Percentages, by Application, 2021 (%)
Car
Household Appliances
Ship
Bridge
Construction
Other
Global Pickling Steel Market, By Region and Country, 2017-2022, 2023-2028 ($ Millions) & (K MT)
Global Pickling Steel Market Segment Percentages, By Region and Country, 2021 (%)
North America
US
Canada
Mexico
Europe
Germany
France
U.K.
Italy
Russia
Nordic Countries
Benelux
Rest of Europe
Asia
China
Japan
South Korea
Southeast Asia
India
Rest of Asia
South America
Brazil
Argentina
Rest of South America
Middle East & Africa
Turkey
Israel
Saudi Arabia
UAE
Rest of Middle East & Africa
Competitor Analysis
The report also provides analysis of leading market participants including:
Key companies Pickling Steel revenues in global market, 2017-2022 (Estimated), ($ millions)
Key companies Pickling Steel revenues share in global market, 2021 (%)
Key companies Pickling Steel sales in global market, 2017-2022 (Estimated), (K MT)
Key companies Pickling Steel sales share in global market, 2021 (%)
Further, the report presents profiles of competitors in the market, key players include:
Asian Steel Corporation
ArcelorMittal
Servosteel
New Zealand Steel
Samuel
Worthington Industries
Tata Group
Wuppermann AG
IRIFUNE KOZAI
BaoTou Steel Union
HBIS
Haigang Steel Coil
Sangang Steel
Bensteel Group
Zaiyu Metal
Fanlong Group
Baosteel Group
TISCO Group
Beijing Shougang
Get the Complete Report & TOC @
https://www.24chemicalresearch.com/reports/179588/global-pickling-steel-forecast-market-2022-2028-515
Table of content
1 Introduction to Research & Analysis Reports
1.1 Pickling Steel Market Definition
1.2 Market Segments
1.2.1 Market by Type
1.2.2 Market by Application
1.3 Global Pickling Steel Market Overview
1.4 Features & Benefits of This Report
1.5 Methodology & Sources of Information
1.5.1 Research Methodology
1.5.2 Research Process
1.5.3 Base Year
1.5.4 Report Assumptions & Caveats
2 Global Pickling Steel Overall Market Size
2.1 Global Pickling Steel Market Size: 2021 VS 2028
2.2 Global Pickling Steel Revenue, Prospects & Forecasts: 2017-2028
2.3 Global Pickling Steel Sales: 2017-2028
3 Company Landscape
3.1 Top Pickling Steel Players in Global Market
3.2 Top Global Pickling Steel Companies Ranked by Revenue
3.3 Global Pickling Steel Revenue by Companies
3.4 Global Pickling Steel Sales by Companies
3.5 Global Pickling Steel Price by Manufacturer (2017-2022)
3.6 Top 3 and Top 5 Pickling Steel Companies in Global Market, by Revenue in 2021
3.7 Global Manufacturers Pickling Steel Product Type
3.8 Tier 1, Tier 2 and Tier 3 Pickling Steel Players in Global Market
3.8.1 List of Global Tier 1 Pickling Steel Companies
3.8.2 List of Global Tier 2 and Tier 3 Pickling Steel Companies
4 Sights by Product
4.1 Overview
4.1.1 By Type - Global Pickling Steel Market Size Markets, 2021 & 2028
4.1.2 Pickling Steel Strip
CONTACT US:
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International: +1(646)-781-7170
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Large squid fishing fishing boat #hakodate_photo #irifune #squidfishing #大型漁船 #isaribi #漁り火 (入舟漁港)
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京料理 入船 上品な味付けの料理の数々を朝から堪能👍 朝食のボリュームが… いつも朝食は少なめだから普通が分からない😅 #morning #japanesefood #japanese #hotel #kyoto #okura #hotelokura #foodstagram #irifune #朝食 #和食 #和食ごはん #京都 #ホテルオークラ京都 #京料理 #入船 #上品 #ボリューム #お腹いっぱい #a7riii #2875mmf28 (Kyoto Hotel Okura 京都ホテルオークラ) https://www.instagram.com/p/B4YZJUsA6jA/?igshid=1bx519w312qcd
#morning#japanesefood#japanese#hotel#kyoto#okura#hotelokura#foodstagram#irifune#朝食#和食#和食ごはん#京都#ホテルオークラ京都#京料理#入船#上品#ボリューム#お腹いっぱい#a7riii#2875mmf28
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Kapahulu Daze. #tbt to when #irifune was open. I've been sick. Now I'm cranking back up the gears to full capacity again. Also, putting color back into my feed. (at Irifune Restaurant)
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Näyttelijä Ichikawa Ichizo näytelmässä Irifune Soga Nihon no torikachi (Sogan suku valloittaa Japanin), Kunisada, 19??, Finnish National Gallery
http://kokoelmat.fng.fi/app?si=A+II+841%3A245
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Incoming Boats at Tsukuda Island (Tsukudajima irifune no zu), from the series "Famous Places in the Eastern Capital (Toto meisho)", Utagawa Hiroshige, 1827, Art Institute of Chicago: Asian Art
Frederick W. Gookin Collection
Size: 25.7 x 37.8 cm (10 1/8 x 14 7/8 in.)
Medium: Color woodblock print; oban
https://www.artic.edu/artworks/33902/
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この一角だけ取り残されたような場所だなと思っていたら、最近になって取り壊されて更地になってしまったようです。 #東京都 #中央区 #入舟 #建築 #建物 #建物探訪 #木造 #木造建築 #レトロ #レトロ建築 #ノスタルジー #昭和 #tokyo #chuo #irifune #architecture #retro #oldarchitecture #showa #wooden #woodenbuilding (中央区 (東京都)) https://www.instagram.com/p/CpisKpyS8cW/?igshid=NGJjMDIxMWI=
#東京都#中央区#入舟#建築#建物#建物探訪#木造#木造建築#レトロ#レトロ建築#ノスタルジー#昭和#tokyo#chuo#irifune#architecture#retro#oldarchitecture#showa#wooden#woodenbuilding
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『Turf』 #hakodate #irifune #cat #ships #sky #harbor (Hakodate, Hokkaido)
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IRIFUNE.
阿蘇内牧温泉。入舟。
料理が絶品。野菜がこんなに美味しいものかと。
温泉も貸切風呂が多数あり◎
部屋も和室なのにベッドがあるお部屋で寝心地も◎
何より、宿泊者が自由に使えるロビーには
本とコーヒー、そして暖炉があり
とても落ち着く空間でした。
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Irifune park, Yokohama city, Kanagawa pref.
October, 1st, 2023
#leica#black and white photography#photographers on tumblr#original photographers#street photography#light and shadow#flowers
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Fate of the subducted oceanic crust revealed by laboratory experiments Professor Tetsuo Irifune of the Geodynamics Research Center (GRC) of Ehime University heads a research group investigating the Earth's interior by means of experiments at extreme pressures and temperatures, simulating those expected in the deepest regions of our planet. Using a combination of ultrasonic techniques and a large volume press apparatus, GRC researchers were successful in measuring the sound velocities of CaSiO3 perovskite (CaPv), an important mineral of the mantle at depths below 560 km. This result allowed them to directly interpret seismic observations by a comparison with their velocity profiles obtained in the laboratory, and derived some composition models for the regions across the 660 km depth discontinuity that marks the boundary between the upper and lower mantle. The scientific article that presents their results was published on January 10 in the highly regarded journal Nature. CaPv constitutes 7-10 vol% of the pyrolitic mantle and up to 30 vol% of subducted basaltic rocks below ~560 km depth and therefore is an important constituent mineral in both the mantle transition region (MTR; 410-660 km in depth) and lower mantle (660-2900 km in depth). CaPv also plays an important role in immobilizing heavy elements such as rare earth elements or actinides in the mantle due to its large calcium site, which can easily accommodate such large elements. But despite such importance, no measurements of sound velocities have been made CaPv at high temperatures, because this phase is unstable at ambient conditions and hence there was no adequate sample for such measurements. "Because CaPv is only stable at pressure and temperature conditions of the mantle, we designed an experiment that allows us to synthesize this phase with the adequate shape and dimension under high pressure, then subsequently send an acoustic wave directly into the pressurized sample. Using this new approach, we can study high-pressure minerals, which are not stable at atmospheric conditions, such as CaPv." says Steeve Gréaux, the researcher leading this project. Professor Irifune and his team already demonstrated in 2008, that pyrolite, a hypothetical rock composition derived as a mixture of basalt and peridotite agree well with geophysical observations at depths down to 560 km, which was also reported in Nature. However, at that time, they could not draw further conclusions at depths lower than 560 km because there was no available data on CaPv. Their 2019 results became the last piece of a puzzle and allowed them to complete their hypotheses for the seismic structure of the mantle in between the depths of 560 km and 800 km. "We did find that the cubic form of CaPv, which is most likely to be present in the mantle, has lower velocities than what was formerly predicted by theoretical studies. This result refutes previous models that proposed formation of CaPv in pyrolite could explain the steep velocity gradient above a depth of 660 km. On the other hand, it is in good agreement with a former study proposing the presence of basalts beneath a depth of 660 km on the basis of density measurements." says Tetsuo Irifune. These new results indeed show that the presence of subducted oceanic crust can explain the magnitude of the reduction of shear velocity below a depth of 660 km, as observed beneath North America. Incidentally, the model they proposed is very consistent with the recent discovery, in 2018, of CaPv in a natural diamond, which provides evidence for the presence of oceanic crust material in the uppermost lower mantle. It is also compatible with global-scale geodynamics calculations that predicted basalt enrichment beneath 660 km would stabilize the subducted slab in this region. The authors conclude "CaPv, which was once called "invisible" in the lower mantle as this phase was predicted to have velocities similar to those of the most abundant mineral (MgSiO3 perovskite or bridgmanite) in fact holds velocities substantially lower than those of bridgmanite at depths of 660-800 km, which should greatly contribute to tracing the existence and recycling of the former oceanic crust in the Earth's lower mantle.". IMAGE....A schematic image of subducted oceanic crust inferred from this study. Basalt and harzburgite layers of the oceanic crust accumulate beneath and above the 660 km discontinuity, respectively. CREDIT Ehime University
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TSU SPECTRUM DIAMOND
ARTIFICIAL OR NATURAL AS WE CAN JUST AS LONG AS HAS MORE THEN COLOR OF THE SPECTRUM - LIKE RAINBOW BRIDGE OR RAINBOW DIAMOND’S
Japanese scientists create ‘world''s hardest artificial diamond’Japanese scientists create ‘world''s hardest artificial diamond
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» Japanese scientists create ‘world''s hardest artificial diamond’Japanese scientists create ‘world''s hardest artificial diamond’
RAMAN IYER
21 DECEMBER 2010
London, Dec 21 : Japanese scientists have successfully synthesised what is believed to be the world''s hardest artificial diamond.
It was created by a team of researchers at Ehime University.
The cylindrical-shaped diamond - called the Hime, Japanese for princess - was developed as part of a collaboration between scientists and Sumitomo Electric Industries, which hopes to start selling the diamonds as early as next year.
According to its creator Tetsuo Irifune, it is significantly stronger than normal diamonds enabling it to be used in an array of industrial activities,.
"A large Hime diamond is useful for experiments to study the high- pressure deep interior of the Earth," the Telegraph quoted Irifune as telling Kyodo News.
"Also, as a product for industrial use its lifetime is several times longer than that of an ordinary diamond," Irifune added.
The newly unveiled diamond is a more sophisticated and bigger version of a similar diamond the same scientists first synthesised in 2003.
Following a series of experiments conducted since March last year using ultra-high pressure synthesising machinery, scientists have been able to craft the Hime, which measures 1cm in length and diameter. (ANI)
https://www.google.com/url?sa=i&source=images&cd=&cad=rja&uact=8&ved=2ahUKEwiS_uubteDlAhUtuVkKHV7iANQQjhx6BAgBEAI&url=https%3A%2F%2Fwww.topnews.in%2Flaw%2Fjapanese-scientists-create-worlds-hardest-artificial-diamond-243092&psig=AOvVaw1nQ7AeCQE00cOhVtlj6-go&ust=1573501030104284
IN THAT INITIAL T A M H NO T L H OR T L K H - TEN COUNT TO TENTETSUTOU
OK - Japanese Imperial OKay like OK not KO Hokinsu spell sun tzu
Terry Lee Hawkins Jr.— - THREE ELEVEN PISCES- OP IN OPERATIONS AND HOPKINS - ( OPP OR OSS - NO HOP OR POP - NOT SPOT STOP POST POTS - TOPS ?)—TERRY LEE HAWKINS - HOPKINS - AND JAPANESE HOKINSU -ME SIR NAMED A CHILD - DATE 10/29/30/2019 T=20=2 E=5 R=18=9 R=18=9 Y=25=7 NOT G OR P—T=20=2 E=5 R=18=9 R=18=9 Y=25=7 NOT G OR P—LI LEE LEI OR RHEE - NAME LEE AMEN OR AMAN ? - THEY DIDNT GET IT PHONETIC LETTER WARTERKEY SIX ( ROMAN 9)[email protected] TJ - TERRY JUNIOR BIRTHDAY MARCH 11 USS OR USA ?CORRECT SELECTION THE GOD DELUSION - CHAPTER 7 - 3 MORE—XERXES ( SEX=GENDER ) XIEXIE ( I AND E VOWELS LETTER 9 & 5)OOP = 16= 7 OO7 / 2600 OR 1600 - 0016 (ACTIVE) JANIST OR JANISM ?Terry Lee Kauffman Hawkins is feeling professional with professor Doctor Dai Gensuier Terry Lee Kauffman Hawkins Terry Lee Hawkins Jr. · ALL PRO RAVENDOVE Terry Lee Kauffman Hawkins was RavenDove - yin yin / yang RavenDove - yin yin / yang - COLD NUMB AND (LOVIEY DOVIEY) CALCULATED SPELL IT D or L Dove or Love maybe L or D Lover or Dover pythagorean numerology ABC123 Kauffman-Hawkins-Hawk or Hopk -H__kins aw or op and Hopkins signed Booper or just Boop not Book BUT LOKI OR BOOPER SAN with Blaze Pascal. with Terry Lee Hawkins ( male ) Peros Dragonus Kami Aisuru ikigami shinigam HAWKINS HOKINSU/HOKINZU — feeling professional with Terry Lee Hawkins Jr.Terry Lee Kauffman Hawkins Terry Lee Hawkins JR ( male ) Peros Dragonus Kami Aisuru ikigami shinigam
TER OR TERRY / - HAWKINS - LETTERS IN SPELLING
DAI-GENSUIER
Professor Doctor Dai Gensuier Terry Lee Kauffman Hawkins Terry Lee Hawkins Jr. - Signed Boop not Book
Rank: TEN ( CODELOVE-AI)-star Non-NATO rank: O-16 NATO rank: OF-15 Next lower rank: GENSUIER
GENSUIER - AMONG R&R AND SECURITY DETAIL
Rank: NINE ( CODELOVE-AI)-star Non-NATO rank: O-15 NATO rank: OF-14 Next lower rank: DAI GENSUIA
DAI GENSUIA
Rank: Eight -star Non-NATO rank: O-14 NATO rank: OF-13 Next lower rank: GENSUIA
GENSUIA
Rank: Seven -star Non-NATO rank: O-13 NATO rank: OF-12 Next lower rank: DAI GENSUi
DAI GENSUI
Rank: SIX -star Non-NATO rank: O-12 NATO rank: OF-11 Next lower rank: Gensui
GENSUI
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