nexteck.com

">

和六十老妇做爰_爽欲亲伦小说杂烩下_精品国产香蕉伊思人在线又爽又黄_国产hd高清freexxxx

Toll free:+86-400 882 8982 中文 ENG

New Metals —Transition-Metal Disilicides

Modern aircraft and power generation turbines depend on precision-machined parts that can withstand harsh mechanical forces in high-temperature environments. In many cases, higher operating temperatures lead to more efficient performance. This motivates the search for new ultrahigh-temperature metal alloys that can maintain their shape and strength at temperatures where ordinary steel would melt. Metal alloy supplier, like Nexteck Technology, provides not only precision alloys but also thermoelectrical alloys for information technology, precision measurement, research and development technology,green energy, and other fields.

Building on their research into a promising mixed alloy, a team of researchers at Osaka University have made a new breakthrough by adding metals to generate a unique structure that shows exceptional performance.

1574664017517536.jpg


"Our previous alloy was a blend of different transition-metal disilicides, which were arranged in a lamellar structure," says lead author Koji Hagihara. "Although the alloy's performance was good, it did not meet requirements for room temperature toughness and still showed some deformation at very high temperatures."

Transition-metal disilicides are lightweight alloys with good high temperature resistance, ideally suited for ultrahigh-temperature applications. The Osaka team previously combined two different types of transition-metal disilicides to form a microscopic structure with alternating layers of different alloy crystal. This "lamellar" arrangement improved the alloy strength, but some problems remained because of the low strength along the direction parallel to the two-phase interface.

1574664180865762.png


Now, the team has added two new metals to the alloy mixture to form a "cross-lamellar microstructure." The added metals cause new crystals to grow, which penetrate the crystal layer structure, similar to staples piercing a stack of paper. This effect prevents the deformation parallel to the lamellar interface and considerably improves the mechanical performance of the alloy.

"Other researchers should take note of this unique cross-lamellar microstructure as a way of improving high-temperature creep strength and fracture toughness in ultrahigh temperature alloys," says group leader Takayoshi Nakano. "The performance of our alloy is now closer to meeting the demands of practical engineering applications. The efficiency gains from using ultrahigh temperature materials in gas turbines and jet engines could have a real impact on CO2 emissions and global warming." Nexteck Technology spares no effort to provide environmentally friendly metal alloys.


Attend exhibitions, focus on industry devolpment trend and new technology,Nexteck Technology Limited keeps pace with the times ,exploring and innovating so as to achieving continuous development.


TAG:   precision alloy thermoelectrical alloys metal alloys

24-hour hotline:+86-400 882 8982

logo.png

Providing real-time and high quality service

NEXTECK (CHINA) - SHENZHEN
Tower A1001, Galaxy Century, No 3069, CaiTian Rd, Futian District, Shenzhen, China
Zip Code: 518026
Tel: +86-755-8256-1631
Fax:+86-755-8256-1691
E-mail:nexteck@nexteck.com
Hotline:+86-400 882 8982

PRODUCTION PLANT
Wenchuan Rd, Alley 5300/1, Baoshan District, Shanghai, China
Zip Code: 200942
Tel: +86-21-3638-0189
Fax: +86-21-3638-0109
E-mail: nexteck@nexteck.com.cn