Bewise Inc. www.tool-tool.com Reference source from the internet.
SiC,其硬度介于刚玉和金刚石之间,机械强度高于刚玉,可作为磨料和 其他某些工业材料使用。工业用碳化硅于1891年研制成功,是最早的人造磨料。在陨石和地壳中虽有少量碳化硅存在,但迄今尚未找到可供开采的矿源。 纯碳化硅是无色透明的晶体。工业碳化硅因所含杂质的种类和含量不同,而呈浅黄、绿、蓝乃至黑色,透明度随其纯度不同而异。碳化硅晶 体结构分为六方或菱面体的 α-SiC和立方体的β-SiC(称立方碳化硅)。α-SiC由于其晶体结构中碳和硅原子的堆垛序列不同而构成许多不同变体,已发现70余种。β-SiC 于2100℃以上时转变为α-SiC。
碳化硅的工业制法是用优质石英砂和石油焦在电阻炉内炼制。炼得的碳化硅块,经破碎、酸碱洗、磁选和筛分或水选而制成各种粒度的产品。 碳化硅有黑碳化硅和绿碳化硅两个常用的基本品种,都属α-SiC。①黑碳化硅含SiC约98.5%,其韧性高于绿碳化硅,大多用于加工抗张强度低的材 料,如玻璃、陶瓷、石材、耐 火材料、铸铁和有色金属等。②绿碳化硅含SiC99%以上,自锐性好,大多用于加工硬质合金、钛合金和光学玻璃,也用于珩磨汽缸套和精磨高速钢刀 具。此外还有立方碳化硅,它是以特殊工艺制取的黄绿色晶体,用以制作的磨 具适于轴承的超精加工,可使表面粗糙度从Ra32~0.16微米一次加工到 Ra0.04~0.02微米。 碳化硅由于化学性能稳定、导热系数高、热膨胀系数小、耐磨性能好,除作磨料用外,还有很多其他用途,例如:以特殊工艺把碳化硅粉末涂布于水轮机叶轮或 汽缸体的内壁,可提高其耐磨性而延长使用寿命1~2倍;用以制成的高级耐火材料,耐热震、体积小、重量轻而强度高,节能效果好。低品级碳化硅(含SiC约 85%)是极好的脱氧剂,用它可加快炼钢速度,并便于控制化学成分,提高钢的质量。此外,碳化硅还大量用于制作电热元件硅 碳棒。
用途
(1)作为磨料,可用来做磨具,如砂 轮、油 石、磨 头、砂瓦类等。 (2)作为冶金脱氧剂和耐 高温材料。 碳化硅主要有四大应用领域,即: 功能陶瓷、高级耐火材料、磨料及冶金原料。目前碳化硅粗料已能大量供应, 不能算高新技术产品,而技术含量极高 的纳米级碳化硅粉体的应用短时间不可能形成规模经济。 (3)高纯度的单晶,可用于制造半导体、制造碳 化硅纤维。
产地、输往国别及品质规格
(1)产地:长白山脉、河南、青海、宁夏、四川、贵 州、湖北丹江口等地。 (2)输往国别:美国、日本、韩国、及某些欧洲国家。 (3)品质规格: ①磨料级碳化硅技术条件按GB/T2480—96。各牌号的化学成分由表6-6-47和表6-6-48给出。 ②磨料粒度及其组成按GB/T2477—83。磨料粒度组成测定方法按GB/T2481—83。 GB/T 9258.1-2000|涂附磨具用磨料 粒度分析 第1部分:粒度组成 GB/T 9258.2-2008|涂附磨具用磨料 粒度分析 第2部分:粗磨粒P12~P220粒度组成的测定 GB/T 9258.3-2000|涂附磨具用磨料 粒度分析 第3部分:微粉P240~P2500粒度组成的测定
具体理化指标
项目
SiC
Fe2O3
F.C
比
重
Ⅰ
≥97%
≤1.2%
≤0.3%
3.2g/cm3
Ⅱ
≥90%
≤1.5%
≤0.5%
起源
是由美国人艾奇逊在1891年电熔金刚石实验时,在实验室偶然发现的一种碳化物,当时误认为 是金刚石的混合体,故取名金刚砂,1893年艾奇逊研究出来了工业冶炼碳化硅的方法,也就是大家常说的艾奇逊炉,一直沿用至今,以碳质材料为炉芯体的电阻 炉,通电加热石英SIO2和碳的混合物生成碳化硅。
发展
关于碳化硅的几个事件 1905年 第一次在陨石中发现碳化硅 1907年 第一只碳化硅发光二极管诞生 1955年 理论和技术上重大突破,LELY提出生长高品质碳化概念,从此将SIC作为重要的电子材料 1958年 在波士顿召开第一次世界碳化硅会议进行学术交流 1978年 六、七十年代碳化硅主要由前苏联进行研究。到1978年首次采用“LELY改进技术”的晶粒提纯生长方法 1987年~至今以CREE的研究成果建立碳化硅生产线,供应商开始提供商品化的碳化硅基 SiC,其硬度介于刚玉和金刚石之间,机械强度高于刚玉,可作为磨料和其他某些工业材料使用。工业用碳化硅于1891年研制成功,是最早的人造磨料。在陨 石和地壳中虽有少量碳化硅存在,但迄今尚未找到可供开采的矿源。
纯碳化硅是无色透明的晶体。工业碳化硅因所含杂质的种类和含量不同, 而呈浅黄、绿、蓝乃至黑色,透明度随其纯度不同而异。碳化硅晶 体结构分为六方或菱面体的 α-SiC和立方体的β-SiC(称立方碳化硅)。α-SiC由于其晶体结构中碳和硅原子的堆垛序列不同而构成许多不同变体,已发现70余种。β-SiC 于2100℃以上时转变为α-SiC。
碳化硅的工业制法是用优质石英砂和石油焦在电阻炉内炼制。炼得的碳化硅块,经破碎、酸碱洗、磁选和筛分或水选而制成各种粒度的产品。
碳化硅有黑碳化硅和绿碳化硅两个常用的基本品种,都属α-SiC。①黑碳化硅含SiC约98.5%,其韧性高于绿碳化硅,大多用于加工抗张强度低的材 料,如玻璃、陶瓷、石材、耐 火材料、铸铁和有色金属等。② 绿碳化硅含SiC99%以上,自锐性好,大多用于加工硬质合金、钛合金和光学玻璃,也用于珩磨汽缸套和精磨高速钢刀具。此外还有立方碳化硅,它是以特殊工 艺制取的黄绿色晶体,用以制作的磨 具适于轴承的超精加工,可使表面粗糙度从Ra32~0.16微米一次加工到Ra0.04~0.02微米。
碳化硅由于化学性能 稳定、导热系数高、热膨胀系数小、耐磨性能好,除作磨料用外,还有很多其他用途,例如:以特殊工艺把碳化硅粉末涂布于水轮机叶轮或汽缸体的内壁,可提高其 耐磨性而延长使用寿命1~2倍;用以制成的高级耐火材料,耐热震、体积小、重量轻而强度高,节能效果好。低品级碳化硅(含SiC约85%)是极好的脱氧 剂,用它可加快炼钢速度,并便于控制化学成分,提高钢的质量。此外,碳化硅还大量用于制作电热元件硅 碳棒。
碳化硅的硬度很大,具有优良的导热性能,是一种半导体,高温时能抗氧化。
用途
(1)作为磨料,可用来做磨具,如砂 轮、油 石、磨 头、砂瓦类等。
(2)作为冶金脱氧剂和耐 高温材料。
碳化硅主要有四大应用领域,即: 功能陶瓷、高级耐火材料、磨料及冶金原料。目前碳化硅粗料已能大量供应, 不能算高新技术产品,而技术含量极高 的纳米级碳化硅粉体的应用短时间不可能形成规模经济。
(3)高纯度的单晶,可用于制造半导体、 制造碳 化硅纤维。
产地、输往国别及品质规格
(1)产地:长白山脉、河南、青海、宁夏、四川、贵 州、湖北丹江口等地。
(2)输往国别:美国、日本、韩国、及某些欧洲国家。
(3)品质规格:
①磨料级碳化硅技术条件按GB/T2480—96。各牌号的化学成分由表6-6-47和表6-6-48给出。
②磨料粒度及其组成按 GB/T2477—83。磨料粒度组成测定方法按GB/T2481—83。
GB/T 9258.1-2000|涂附磨具用磨料 粒度分析 第1部分:粒度组成
GB/T 9258.2-2008|涂附磨具用磨料 粒度分析 第2部分:粗磨粒P12~P220粒度组成的测定
GB/T 9258.3-2000|涂附磨具用磨料 粒度分析 第3部分:微粉P240~P2500粒度组成的测定
具体理化指标
项目
SiC
Fe2O3
F.C
比
重
Ⅰ
≥97%
≤1.2%
≤0.3%
3.2g/cm3
Ⅱ
≥90%
≤1.5%
≤0.5%
起源
是由美国人艾奇逊在1891年电熔金刚石实验时,在实验室偶然发现的一种碳化物,当时误认为 是金刚石的混合体,故取名金刚砂,1893年艾奇逊研究出来了工业冶炼碳化硅的方法,也就是大家常说的艾奇逊炉,一直沿用至今,以碳质材料为炉芯体的电阻 炉,通电加热石英SIO2和碳的混合物生成碳化硅。
发展
关于碳化硅的几个事件
1905年 第一次在陨石中发现碳化硅
1907年 第一只碳化硅发光二极管诞生
1955年 理论和技术上重大突破,LELY提出生长高品质碳化概念,从此将SIC作为重要的电子材料
1958年 在波士顿召开第一次世界碳化硅会议进行学术交流
1978年 六、七十年代碳化硅主要由前苏联进行研究。到1978年首次采用“LELY改进技术”的晶粒提纯生长方法
1987年~至今以CREE 的研究成果建立碳化硅生产线,供应商开始提供商品化的碳化硅基
SiC, the hardness range between
corundum and diamond, the mechanical strength than alumina can be used
as abrasives and other materials used in certain industries.Industrial
successful development of silicon carbide in 1891, was the first
man-made abrasives.Although in the meteorite and the Earth's crust there
is a small amount of silicon carbide, but has yet to find the source of
ore available for mining.Pure SiC is colorless and transparent
crystal.Industrial silicon carbide due to impurities contained in
different types and levels, but was light yellow, green, blue and even
black, transparency varies with its purity.SiC crystal structure is
divided into six or rhombohedron of α-SiC and cubic β-SiC (called cubic
silicon carbide).α-SiC crystal structure because of its carbon and
silicon atoms form different stacking sequence of many different
variants have been found in 70 species.β-SiC at 2100 ℃ above into α-SiC.
Silicon
carbide industrial production method is high-quality quartz sand and
petroleum coke in the resistance furnace refining.Mixing silicon carbide
blocks obtained by crushing, acid washing, magnetic separation and
water screening or selection of products made of various size.Black and
green silicon carbide silicon carbide silicon carbide used two basic
varieties, are considered α-SiC.① black silicon carbide SiC containing
about 98.5%, higher than the toughness of the green silicon carbide,
mostly for the processing of low tensile strength materials such as
glass, ceramics, stone, refractory material, cast iron and non-ferrous
metals.② green silicon carbide with SiC99% or more, since the sharpness
is good, mostly for processing hard alloy, titanium alloy and optical
glass, also used for honing cylinder liners and grinding high speed
steel cutting tools.There are also cubic silicon carbide, which is a
special process Preparation of yellow-green crystals, suitable for the
production of bearings super abrasive finishing, make the surface
roughness Ra32 ~ 0.16 micron from a process to Ra0.04 ~0.02 micron.As
the chemical properties of silicon carbide stability, high thermal
conductivity, thermal expansion coefficient, good wear resistance, in
addition to abrasive used, there are many other uses, such as: a special
technique to silicon carbide powder coating on the turbine impeller or
cylinder blockwall, can improve the wear resistance and extend the
service life of 1 to 2 times; made of high-level refractory material
used, heat shock, small volume, weight light and high strength, good
energy saving effect.Low-grade silicon carbide (SiC containing about
85%) is an excellent deoxidizing agent, use it to speed up the
steel-making speed, and easy to control the chemical composition, to
improve the quality of steel.In addition, silicon carbide is also used
extensively for production of silicon carbide heating elements.
Use
(1)
as the abrasive, can be used for abrasive, such as grinding wheels,
whetstone, grinding wheel, sand tiles etc.(2) as a deoxidizing agent and
high temperature materials, metallurgy.SiC there are four main
application areas, namely: functional ceramics, advanced refractories,
abrasives and metallurgical materials.Silicon carbide has been able to
present an abundant supply of coarse material, can not be considered
high-tech products, high-tech application of nano-silicon carbide powder
is impossible to form a short time scale.(3) high purity single
crystal, can be used to manufacture semiconductors, manufacture of
silicon carbide fibers.
Place of origin, exports to the country and
quality specifications
(1) Origin: Changbai Mountains, Henan,
Qinghai, Ningxia, Sichuan, Guizhou, Hubei, Dan, etc..(2) exports to the
country: the United States, Japan, Korea, and some European
countries.(3) Specification: ① grade silicon carbide abrasive technical
conditions by GB/T2480-96.The chemical composition of various grades in
Table 6-6-47 and Table 6-6-48 shows.② abrasive particle size and
composition by GB/T2477-83.Abrasive grain size determination by
GB/T2481-83.GB / T 9258.1-2000 | coated abrasives size analysis Part 1:
Grain size GB / T 9258.2-2008 | coated abrasives size analysis Part 2:
coarse grain abrasive P12 ~ P220degree of determination of the
composition of GB / T 9258.3-2000 | coated abrasives size analysis Part
3: Powder P240 ~ P2500 Determination of particle size
Specific
physical and chemical indicators
The proportion of the project SiC
Fe2O3 F.C
Ⅰ ≥ 97% ≤ 1.2% ≤ 0.3% 3.2g/cm3
Ⅱ ≥ 90% ≤ 1.5% ≤ 0.5%
Origin
Acheson
by the American experiment in 1891, when fused diamond, found by chance
in the laboratory of a carbide, was mistaken for a mixture of diamond,
so named Emery, 1893, Acheson's research in industrialmethod of refining
silicon carbide, that is, we often say that the Acheson furnace, has
been in use ever since, with carbonaceous material body resistance
furnace stoves, electric heating a mixture of quartz SIO2 generation
silicon carbide and carbon.
Developing
Several events on the
silicon carbide in 1905 the first meteorite found in 1907, the first
silicon carbide light emitting diode only the birth of the theory and
technology in 1955, a major breakthrough, LELY proposed the concept of
the growth of high-quality carbon, from the SIC as an
importantElectronic Materials held in Boston in 1958, the first World
Conference on Silicon Carbide in 1978, six academic exchanges, mainly by
silicon carbide seventies to study the former Soviet Union.The first
time in 1978, "LELY improved technology," the growth of the grain
refining method in 1987 ~ to date research results CREE SiC production
line set up, suppliers are beginning to provide the commercialization of
silicon carbide-based SiC, the hardness between corundum and
diamondbetween mechanical strength than alumina can be used as abrasives
and other materials used in certain industries.Industrial successful
development of silicon carbide in 1891, was the first man-made
abrasives.Although in the meteorite and the Earth's crust there is a
small amount of silicon carbide, but has yet to find the source of ore
available for mining.
Pure SiC is colorless and transparent
crystal.Industrial silicon carbide due to impurities contained in
different types and levels, but was light yellow, green, blue and even
black, transparency varies with its purity.SiC crystal structure is
divided into six or rhombohedron of α-SiC and cubic β-SiC (called cubic
silicon carbide).α-SiC crystal structure because of its carbon and
silicon atoms form different stacking sequence of many different
variants have been found in 70 species.β-SiC at 2100 ℃ above into α-SiC.
Silicon
carbide industrial production method is high-quality quartz sand and
petroleum coke in the resistance furnace refining.Mixing silicon carbide
blocks obtained by crushing, acid washing, magnetic separation and
water screening or selection of products made of various size.
Black
and green silicon carbide silicon carbide silicon carbide used two basic
varieties, are considered α-SiC.① black silicon carbide SiC containing
about 98.5%, higher than the toughness of the green silicon carbide,
mostly for the processing of low tensile strength materials such as
glass, ceramics, stone, refractory material, cast iron and non-ferrous
metals.② green silicon carbide with SiC99% or more, since the sharpness
is good, mostly for processing hard alloy, titanium alloy and optical
glass, also used for honing cylinder liners and grinding high speed
steel cutting tools.There are also cubic silicon carbide, which is a
special process Preparation of yellow-green crystals, suitable for the
production of bearings super abrasive finishing, make the surface
roughness Ra32 ~ 0.16 micron from a process to Ra0.04 ~0.02 micron.
As
the chemical properties of silicon carbide stability, high thermal
conductivity, thermal expansion coefficient, good wear resistance, in
addition to abrasive used, there are many other uses, such as: a special
technique to silicon carbide powder coating on the turbine impeller or
cylinder blockwall, can improve the wear resistance and extend the
service life of 1 to 2 times; made of high-level refractory material
used, heat shock, small volume, weight light and high strength, good
energy saving effect.Low-grade silicon carbide (SiC containing about
85%) is an excellent deoxidizing agent, use it to speed up the
steel-making speed, and easy to control the chemical composition, to
improve the quality of steel.In addition, silicon carbide is also used
extensively for production of silicon carbide heating elements.
Silicon
carbide is very hard, has excellent thermal conductivity, is a
semiconductor, high temperature resistant to oxidation.
Use
(1) as
the abrasive, can be used for abrasive, such as grinding wheels,
whetstone, grinding wheel, sand tiles etc.
(2) as a deoxidizing agent
and high temperature materials, metallurgy.
SiC there are four main
application areas, namely: functional ceramics, advanced refractories,
abrasives and metallurgical materials.Currently coarse silicon carbide
have been available in large numbers, can not be considered high-tech
products, high-tech applications nanometer silicon carbide powder is
impossible to form a short time scale.
(3) high purity single
crystal, can be used to manufacture semiconductors, manufacture of
silicon carbide fibers.
Place of origin, exports to the country and
quality specifications
(1) Origin: Changbai Mountains, Henan,
Qinghai, Ningxia, Sichuan, Guizhou, Hubei, Dan, etc..
(2) exports to
the country: the United States, Japan, Korea, and some European
countries.
(3) Specification:
① grade silicon carbide abrasive
technical conditions by GB/T2480-96.The chemical composition of various
grades in Table 6-6-47 and Table 6-6-48 shows.
② abrasive particle
size and composition by GB/T2477-83.Abrasive grain size determination by
GB/T2481-83.
GB / T 9258.1-2000 | coated abrasives size analysis
Part 1: Grain size
GB / T 9258.2-2008 | coated abrasives size
analysis Part 2: coarse grain P12 ~ P220 Determination of particle size
GB
/ T 9258.3-2000 | coated abrasives size analysis Part 3: Powder P240 ~
P2500 Determination of particle size
Specific physical and chemical
indicators
The proportion of the project SiC Fe2O3 F.C
Ⅰ ≥ 97% ≤
1.2% ≤ 0.3% 3.2g/cm3
Ⅱ ≥ 90% ≤ 1.5% ≤ 0.5%
Origin
Acheson by
the American experiment in 1891, when fused diamond, found by chance in
the laboratory of a carbide, was mistaken for a mixture of diamond, so
named Emery, 1893, Acheson's research in industrialmethod of refining
silicon carbide, that is, we often say that the Acheson furnace, has
been in use ever since, with carbonaceous material body resistance
furnace stoves, electric heating a mixture of quartz SIO2 generation
silicon carbide and carbon.
Developing
Several events on the
silicon carbide
1905, the first meteorite found in silicon carbide
1907,
the first born only silicon carbide light-emitting diode
Theory and
technology in 1955, a major breakthrough, LELY proposed the concept of
the growth of high-quality carbon, from the SIC as an important
electronic materials
Held in Boston in 1958, the first world
conference for academic exchange of silicon carbide
1978, 6, 70
mainly former Soviet Union Carbide's research.The first time in 1978,
"LELY improved technology," Purification of Grain Growth Method
CREE
1987 ~ present research results to build silicon carbide production
lines, commercial vendors began offering the silicon carbide base
歡迎來到Bewise Inc.的世界,首先恭喜您來到這接受新的資訊讓產業更有競爭力,我們是提供專業刀具製造商,應對客戶高品質的刀具需求,我 們可以協助客戶滿足您對產業的不同要求,我們有能力達到非常卓越的客戶需求品質,這是現有相關技術無法比擬的,我們成功的滿足了各行各業的要求,包括:精密HSS DIN切削刀具、協助客戶設計刀具流程、DIN or JIS 鎢鋼切削刀具設計、NAS986 NAS965 NAS897 NAS937orNAS907 航太切削刀具,NAS航太刀具設計、超高硬度的切削刀具、醫療配件刀具設計、複合式再研磨機、PCD地板專用企口鑽石組合刀 具、粉末造粒成型機、主機版專用頂級電桿、PCD V-Cut刀、捨棄式圓鋸片組、粉末成型機、航空機械鉸刀、主機版專用頂級電感、’汽車業刀具設計、電子產業鑽石刀具、木工產業鑽石刀具、銑刀與切斷複合再研磨機、銑刀與鑽頭複合再研磨機、銑刀與螺絲攻複合再研磨機等等。我們的產品涵蓋了從民生 刀具到工業級的刀具設計;從微細刀具到大型刀具;從小型生產到大型量產;全自動整合;我們的技術可提供您連續生產的效能,我們整體的服務及卓越的技術,恭 迎您親自體驗!!
BW Bewise Inc. Willy Chen willy@tool-tool.com bw@tool-tool.com www.tool-tool.com skype:willy_chen_bw mobile:0937-618-190 Head &Administration Office No.13,Shiang Shang 2nd St., West Chiu Taichung,Taiwan 40356 http://www.tool-tool.com / FAX:+886 4 2471 4839 N.Branch 5F,No.460,Fu Shin North Rd.,Taipei,Taiwan S.Branch No.24,Sec.1,Chia Pu East Rd.,Taipao City,Chiayi Hsien,Taiwan
Welcome to BW tool world! We are an experienced tool maker specialized in cutting tools. We focus on what you need and endeavor to research the best cutter to satisfy users’ demand. Our customers involve wide range of industries, like mold & die, aerospace, electronic, machinery, etc. We are professional expert in cutting field. We would like to solve every problem from you. Please feel free to contact us, its our pleasure to serve for you. BW product including: cutting tool、aerospace tool .HSS DIN Cutting tool、Carbide end mills、Carbide cutting tool、NAS Cutting tool、NAS986 NAS965 NAS897 NAS937orNAS907 Cutting Tools,Carbide end mill、disc milling cutter,Aerospace cutting tool、hss drill’Фрезеры’Carbide drill、High speed steel、Compound Sharpener’Milling cutter、INDUCTORS FOR PCD’CVDD(Chemical Vapor Deposition Diamond )’PCBN (Polycrystalline Cubic Boron Nitride) ’Core drill、Tapered end mills、CVD Diamond Tools Inserts’PCD Edge-Beveling Cutter(Golden Finger’PCD V-Cutter’PCD Wood tools’PCD Cutting tools’PCD Circular Saw Blade’PVDD End Mills’diamond tool. INDUCTORS FOR PCD . POWDER FORMING MACHINE ‘Single Crystal Diamond ‘Metric end mills、Miniature end mills、Специальные режущие инструменты ‘Пустотелое сверло ‘Pilot reamer、Fraises’Fresas con mango’ PCD (Polycrystalline diamond) ‘Frese’POWDER FORMING MACHINE’Electronics cutter、Step drill、Metal cutting saw、Double margin drill、Gun barrel、Angle milling cutter、Carbide burrs、Carbide tipped cutter、Chamfering tool、IC card engraving cutter、Side cutter、Staple Cutter’PCD diamond cutter specialized in grooving floors’V-Cut PCD Circular Diamond Tipped Saw Blade with Indexable Insert’ PCD Diamond Tool’ Saw Blade with Indexable Insert’NAS tool、DIN or JIS tool、Special tool、Metal slitting saws、Shell end mills、Side and face milling cutters、Side chip clearance saws、Long end mills’end mill grinder’drill grinder’sharpener、Stub roughing end mills、Dovetail milling cutters、Carbide slot drills、Carbide torus cutters、Angel carbide end mills、Carbide torus cutters、Carbide ball-nosed slot drills、Mould cutter、Tool manufacturer.
よ うこそBewise Inc.の 世界へお越し下さいませ、先ず御目出度たいのは新たな
情報を受け取って頂き、もっと各産業に競争力プラス展開。
弊社は専門なエンド・ミルの製造メーカーで、客先に色んな分野のニーズ、
豊富なパリエーションを満足させ、特にハイテク品質要求にサポート致します。
弊社は各領域に供給 できる内容は:
(3)鎢鋼エンド・ミ ル設計
(4)航空エ ンド・ミル設計
(5)超高硬度エンド・ミル
弊社の製品の供給調達機能は:
(4)オートメーション整備調達
弊社 の全般供給体制及び技術自慢の総合専門製造メーカーに貴方のご体験を御待ちしております。
Bewise Inc. talaşlı imalat sanayinde en fazla kullanılan ve üç eksende (x,y,z) talaş kaldırabilen freze takımlarından olan Parmak Freze imalatçısıdır. Çok geniş ürün yelpazesine sahip olan firmanın başlıca ürünlerini Karbür Parmak Frezeler, Kalıpçı Frezeleri, Kaba Talaş Frezeleri, Konik Alın Frezeler, Köşe Radyüs Frezeler, İki Ağızlı Kısa ve Uzun Küresel Frezeler, İç Bükey Frezeler vb. şeklinde sıralayabiliriz.
BW специализируется в научных исследованиях и разработках, и снабжаем самым высокотехнологичным карбидовым материалом для поставки режущих / фрезеровочных инструментов для почвы, воздушного пространства и электронной индустрии. В нашу основную продукцию входит твердый карбид / быстрорежущая сталь, а также двигатели, микроэлектрические дрели, IC картонорезальные машины, фрезы для гравирования, режущие пилы, фрезеры-расширители, фрезеры-расширители с резцом, дрели, резаки форм для шлицевого вала / звездочки роликовой цепи, и специальные нано инструменты. Пожалуйста, посетите сайт www.tool-tool.com для получения большей информации.
BW is specialized in R&D and sourcing the most advanced carbide material with high-tech coating to supply cutting / milling tool for mould & die, aero space and electronic industry. Our main products include solid carbide / HSS end mills, micro electronic drill, IC card cutter, engraving cutter, shell end mills, cutting saw, reamer, thread reamer, leading drill, involute gear cutter for spur wheel, rack and worm milling cutter, thread milling cutter, form cutters for spline shaft/roller chain sprocket, and special tool, with nano grade. Please visit our web www.tool-tool.com for more info.
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