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www.us-tech.com


June 2025


 





I.C.T Builds Customer Success through Service


Continued from page 1


End-to-End Support The project exemplifies


I.C.T’s dedication to operational excellence. Every machine shipped is backed by a detailed plan for installation, commission- ing, training, and ongoing sup- port. For full-line projects, I.C.T assigns experienced engineers who travel onsite to assist the cus- tomer from day one of set up through to the early phases of mass production. These engineers don’t just install equipment — they transfer knowledge, optimize efficiency, and help build long- term manufacturing capability. Beyond physical support,


  


 


 


I.C.T offers 24/7 remote assis- tance, ensuring that any issues encountered during operation are addressed swiftly. This mul- tilayered service framework al- lows customers to focus on scal- ing their production, confident in the technical partnership that I.C.T provides. Wang highlights, “Our team


is always ready to travel global- ly, but our support starts long


before that — through detailed planning, testing, and ongoing communication. Our customers appreciate not only the technolo- gy but also the people behind it.”


Global Reach — Localized Touch


This proactive, localized ap-


proach is key to I.C.T’s reputa- tion. From North America to Southeast Asia, customers value the personalized attention and technical expertise that I.C.T of- fers, reinforcing the company’s position as a trusted partner in the global manufacturing land- scape.


With a service model that


blends technical excellence with global reach, I.C.T ensures that every customer feels supported — every step of the way. Contact: Dongguan ICT


Technology Co., Ltd., Building 1, No. 17 Dalong Road, Shigu Town, Nancheng Street, Dongguan, Guangdong, China % +86-138-2745-8718 E-mail: smt@smt11.com Web: www.smtfactory.com r


Flexible Thermoelectric Semiconductors


Continued from page 6


better conductivity of heat and electricity, typically they are brittle and not flexible. The type of semiconductor


used in this research is a rare in- organic material that has strik- ing potential for flexible thermo-


electric performance. However, the underlying physics and chemistry mechanisms for en- hancing its performance while maintaining exceptional plastici- ty remained largely unexplored until now. Web: www.qut.edu.au r


A Cool Fix for Hot Chips Continued from page 1


from the source. The efficiency of this tech-


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nique is constrained, however, by the sensible heat of water. This quantity refers to the amount of heat needed to increase the tem- perature of a substance without inducing a phase change. The la- tent heat of phase change of wa- ter, which is the thermal energy absorbed during boiling or evapo- ration, is around 7 times larger than its sensible heat. “By exploit- ing the latent heat of water, two- phase cooling can be achieved, re- sulting in a significant efficiency enhancement in terms of heat dis- sipation,” explains Hongyuan Shi, lead author of the study. Previous


research has


shown the potential of two-phase cooling, while also highlighting the complications of this tech- nique, primarily due to difficul- ties in managing the flow of va- por bubbles after heating. Maxi- mizing the efficiency of heat transfer depends on a variety of


factors, including the geometry of the microchannels, the two- phase flow regulation, and the flow resistance. This study describes a novel


water-cooling system comprising three-dimensional microfluidic channel structures, utilizing a capillary structure and a mani- fold distribution layer. The re- searchers designed and fabricat- ed various capillary geometries and studied their properties across a range of conditions. It was found that both the


geometry of the microchannel, through which the coolant flows, and the manifold channels, which control the distribution of coolant, influence the thermal and hydraulic performance of the system. High-performance electron-


ics rely on advanced cooling tech- nology, and this research could be key in maximizing the per- formance of future devices and achieving carbon neutrality. Web: www.iis.u-tokyo.ac.jp r


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