we are manufcatory and can supply the best price and good quality .
it is full range of CYLINDER LINER for the following type :
AAA) YANMAR DIESEL ENGINE
DL20/22/28/ DK20 / DK 28
UEC37H-IIB/ UET37/88HA/UEC45HA.LA/ UEC52HA.LA/ S6B/
6EL30/ EL(S)32 /6EL(S)35/ 6EL38/ 6EL40/ 6EL(S)44/50A/
GGG) MAN B&W
III)SULZER
RND 68 RND 76 RD 44
JJJ) MAKITA
GSLH – 633 637 KSLH -633 637
Kkk) PIELSTICK
PC 2-5 PC 2-6
Engine Cylinder Liner,Engine Part Cylinder Liner,Diesel Engine Liner,Cylinder Liner For Ship,Cylinder Liner For Diesel Engine ZhouShan HeCheng Machinery Co., LTD. , https://www.hcmarineparts.com
K(D)L, KFL-T, 6MAL-H/T/HT/DT, S165-T/ST/EN,
S185-ST/UT/ET, M200L-UN/SN/EN/M220L-UN/SN/EN / N 330
BBB) DAIHATSU DIESEL ENGINE
PS22/26/ DS18(A)/ DS(B)22/
CCC) NIIGATA DIESEL ENGINE
6L(M)25BX/6M28AFTE/BX/6M31X/EZ/EX/ 31AFTE /34AGT
DDD) AKASAKA
AH30/AH38/ AH40/D/F/ A31/34/37/41/ DM28/30/33/36/38/40(A)K/ DM46/ UEC37H-HB/ UEC 37/88H
UEC 37LA/ UEC45LA/ UEC52LA/ UEC52HA/ UEC60HA/ UEC60LS/ UEC45HA/115 ALL UET TYPE
EEE) MITSUBISHI (KOBE AND AKASAKA )
45/75C/ 45/80D/ 52/90D/ 52/105D.E/
ETC
FFF) HANSHIN
6LU(D)26/ 6LU(N)28A/ 6LU(D)32/6LU(D)35/ 6LU(S)38/ 40 / 6LU40/ 6LU46A/ 6LU50A/
S35MC/L35MCE/L50MCE/ L60MCE/ 40/54A
HHH) MITSUBISHI PURIFIER
SJ700~SJ1800/SJ 2000
Let trace sample analysis be simple - UPLC microfluidic chip Trizaic
Jia Wei
Waters Technology (Shanghai) Co., Ltd. Experimental Center
For liquid chromatography analysis of trace samples, nanoliter liquid phase (nanoLC) is often required as a separation tool. However, due to the use of very thin tubes (25-100 μm internal diameter) and extremely low flow rates (200-450 nL/min), in the use of nanoLC, small operational errors can cause huge separation performance. The impact even led to the failure of the experiment. Figure 1 (left) shows the possible problems with nanoliter capillaries in cutting applications. In order to reduce the difficulty of operation of the nanoLC, Waters introduced the nano-microfluidic chip - Trizaic. It integrates numerous tubing into the column and enables easy operation of the nanoLC between squares. Trizaic, as Waters' nano-adjusted microfluidic chip system, starts with UPLC technology and goes far beyond the current HPLC level of other microfluidic chip products. Naturally, compared to other microfluidic chips, Trizaic naturally has the superior performance advantages of UPLC over HPLC. By contrast, Professor Miller's paper in the journal Current Trends in Mass Spectrometry clearly shows the superior performance that Trizaic can provide without the HPLC-grade microfluidic chip (Figure 1 right).
  Â
Figure 1. Left: Magnification of the nanoliter liquid phase cut. Right: Trizaic and HPLC microfluidic chip analysis results.
Trizaic not only has strong separation performance, but also considers the convenience of practical use in its structural design. Its main features are as follows:
â– Trizaic uses sub-2 nanometer grade fillers, which is the basis for its superior separation performance.
â– Trap Column and Analytical Column are built into Trizaic at the same time, which avoids the fine operation required to connect the nanoliter pipeline.
Reproducibility and stability of the test.
â– Accurate and stable nanoliter flow rate control without splitting. The splitless design saves the lab a huge purchase of high purity mobile phase and waste disposal costs.
â– Trizaic provides automatic temperature control to ensure accurate reproducibility of separation.
â– Automatically store and record the usage of Trizaic, and the experiment is easy and convenient.
   Â
Figure 2. Trizaic internal structure diagram (in the shadow on the left) and appearance (right).
In order to achieve excellent separation performance, unlike other microfluidic chips, in Trizaic's design, Waters creatively used ceramic materials to meet the material strength necessary for UPLC. Through laser etching, high temperature pressure fusion, information storage chip implantation and other processes, Trizaic products are not only small in appearance, easy to use, but also excellent in stability. T RIZAIC can easily and maintain excellent separation performance in as many as hundreds of replicates (Figure 3).
Figure 3. Enolase Protease Cut Mixture (70 fmol) was analyzed using Trizaic separation. In the figure, the 15th, 215th, and 475th repeated experimental analysis chromatograms were performed from top to bottom. The results show excellent reproducibility and stability of Trizaic.
About Waters Corporation ()
For more than 50 years, Waters Corporation (NYSE: WAT) has made significant advances in medical services, environmental management, food safety and global water quality monitoring by providing practical and sustainable innovations that have created business for laboratory-related organizations. Advantage.
As a pioneer in a range of separation science, laboratory information management, mass spectrometry and thermal analysis technologies, Waters technology's breakthroughs and laboratory solutions create a lasting platform for customer success.
With a $1.85 billion revenue in 2011, Waters continues to lead customers around the world in exploring science and achieving excellence.
###
Waters, UPC 2 , UltraPerformance Convergence Chromatography, ACQUITY, NuGenesis, UPLC, TruView, XSelect, XBridge, Synapt, Xevo and Engineered Simplicity are trademarks of Waters Corporation.