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Nanjing Janus New- Materials Co., Ltd.
Contact: 18020112633 (Ms. Wang)
WeChat:18020112633
Tel: 025-83585108
Fax: 025-83172243
Address: Nanjing Xianlin University City Science and Technology Park, Yuanhua Road, Xianlin University, Qixia District, Nanjing
Website: www.fhztl.com
Bank: Bank of China, Jiangsu Branch Office
Account number: 474161398545
JNS Instrument
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Microfluidic electrostatic integrated machine
The micro-fluid electrostatic integrated machine produced by our company takes a variety of micro-fluidic chips as the core and uses the electrostatic field and micro-fluid field as the driving force. A new electrostatic micro-fluidic integrated spinning machine is newly designed. It has the characteristics of microfluidics and can produce highly ordered fibers. Through microfluidic digitization, it is precisely controlled to achieve a multi-level structure and multi-composite hybrid fibers, and in-situ spinning can be achieved through microfluidic chips. Chemical synthesis makes its spinning process possess the characteristics of both physical and chemical processes.
The micro-fluid electrostatic integrated machine produced by our company takes a variety of micro-fluidic chips as the core and uses the electrostatic field and micro-fluid field as the driving force. A new electrostatic micro-fluidic integrated spinning machine is newly designed. It has the characteristics of microfluidics and can produce highly ordered fibers. Through microfluidic digitization, it is precisely controlled to achieve a multi-level structure and multi-composite hybrid fibers, and in-situ spinning can be achieved through microfluidic chips. Chemical synthesis makes its spinning process possess the characteristics of both physical and chemical processes.
The micro-fluid electrostatic integrated machine produced by our company takes a variety of micro-fluidic chips as the core and uses the electrostatic field and micro-fluid field as the driving force. A new electrostatic micro-fluidic integrated spinning machine is newly designed. It has the characteristics of microfluidics and can produce highly ordered fibers. Through microfluidic digitization, it is precisely controlled to achieve a multi-level structure and multi-composite hybrid fibers, and in-situ spinning can be achieved through microfluidic chips. Chemical synthesis makes its spinning process possess the characteristics of both physical and chemical processes.
