Printing
Printing的相关文献在1990年到2022年内共计212篇,主要集中在轻工业、手工业、自动化技术、计算机技术、肿瘤学
等领域,其中期刊论文211篇、专利文献1篇;相关期刊108种,包括印刷工业、广东印刷、丝网印刷等;
Printing的相关文献由328位作者贡献,包括Chee Kai Chua、Chee Kai CHUA、王以俊等。
Printing
-研究学者
- Chee Kai Chua
- Chee Kai CHUA
- 王以俊
- Atsushi Nitta
- Chuan Lu
- Gaojun Teng
- Geng Zhou
- Haitao Lu
- Minghua Li
- Ran Zhou
- Weidong Liu
- Wenquan Gu
- Yi Zhang
- Yichen Che
- Yongde Cheng
- Yueqi Zhu
- Zhao Xinhua
- 丁一
- 杨根林
- 胡宏亮
- 邱发奎
- A. Tsiantis
- A.E.Ivanova
- A.I.Vinokur
- A.S.Titov
- Ahmed A. Nasef
- Akii O. Ibhadode
- Ala Qattawi
- Ala’aldin Alafaghani
- Amanda Marotta
- Amin Azimi
- Amit Kumar Jaiswal
- Amr R. El-Beialy
- An Tong
- Angelika Lenz
- Arsheen Moiz
- Athanasios Karampotsos
- Azza A. El-Halwagy
- Baoxin Chen
- Beckey DeLucia
- Benjamin D. Smith
- Bikram Kishore MAHAJAN1
- Bin Zhang
- Binghui Song
- Bo Seok Kwon
- Brandon LUDWIG1
- Branford-white
- Bruce E. Kahn
- Celeste Brown
- Chaitanya G. Mahajan
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Harish K.Handral;
Vaishali P.Natu;
Tong Cao;
Jerry Y.H.Fuh;
Gopu Sriram;
Wen F.Lu
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摘要:
Introduction 3D bioprinting offers a unique biofabrication platform that allows the generation of functional tissue constructs in a spatially/geometrically controlled and automated manner using a 3 D printer and bioink.Bioink serves as the carrier medium that provides the ideal physico-mechanical characteristics for printability,shape fidelity,and support;and a biological microenvironment for the living cells prior to,during.
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Ruban Whenish;
Seeram Ramakrishna;
Amit Kumar Jaiswal;
Geetha Manivasagam
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摘要:
Introduction The climax of the industrial revolution was marked by the rapid growth of industry,and advancement in technologies have further fueled this industrial expansion,leading to a surge in economic growth.However.these technologies have also increased the degree of destructive human inter-ference with the biosphere.
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Zhao Xinhua
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摘要:
In 2021,in the face of complex and changeable situation at home and abroad,China’s dyeing and printing enterprises actively adjusted development strategy,dyeing and printing cloth production maintained a good growth momentum,the main products export was further expanded than the pre-pandemic period,the main economic indicators continued to recover,enterprise profitability improved significantly,the industry has shown the strong resilience,the 14th Five-Year Plan got off to a good start.However,it should be noted that the current global pandemic is still not under effective control,commodity prices are still at a high level although there has been a decline,and the textile and apparel industry chain and the supply chain is still not smooth enough,and the foundation for a full recovery of the industry still needs to be further consolidated.
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Beckey DeLucia;
Sergey Samorezov;
Megan T.Zangara;
Rachel L.Markley;
Lucas J.Osborn;
Karlee B.Schultz;
Christine McDonald;
Jan Claesen
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摘要:
Accurate and reproducible analysis of murine small and large intestinal tissue is key for preclinical models involving intestinal pathology.Currently,there is no easily ac-cessible,standardized method that allows researchers of different skill levels to con-sistently dissect intestines in a time-efficient manner.Here,we describe the design and use of the 3D-printed“Mouse Intestinal Slicing Tool”(MIST),which can be used to longitudinally dissect murine intestines for further analysis.We benchmarked the MIST against a commonly used procedure involving scissors to make a longitudinal cut along the intestines.Use of the MIST halved the time per mouse to prepare the intestines and outperformed alternative methods in smoothness of the cutting edge and overall reproducibility.By sharing the plans for printing the MIST,we hope to contribute a uniformly applicable method for saving time and increasing consistency in studies of the mouse gastrointestinal tract.
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Hongzhao Zhou;
Peng Liu;
Ziqi Gao;
Qi Li;
Weikang Lv;
Jun Yin;
Bin Zhang;
Huayong Yang;
Liang Ma
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摘要:
Bioprinting:a powerful tool to fabricate biomimetic tissues and organs Bioprinting is an important technology in the field of biofabrication that aims to create functional biomimetic structures.The flexibility,versatility and functionality of bioprinting enable the fabrication of intricate biological structures by combining cells,biomaterials or growth factors as printing bioinks[1,2].
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Changxi Liu;
Liqiang Wang;
Weijie Lu;
Jia Liu;
Chengliang Yang;
Chunhai Fan;
Qian Li;
Yujin Tang
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摘要:
Bioprinting is an emerging additive manufacturing technology that has enormous potential in bone implantation and repair. The insufficient accuracy of the shape of bioprinted parts is a primary clinical barrier that prevents widespread utilization of bioprinting,especially for bone design with high-resolution requirements. During the last five years, the use of computer vision for process control has been widely practiced in the manufacturing field. Computer vision can improve the performance of bioprinting for bone research with respect to various aspects, including accuracy, resolution, and cell survival rate. Hence, computer vision plays a substantial role in addressing the current defect problem in bioprinting for bone research. In this review, recent advances in the application of computer vision in bioprinting for bone research are summarized and categorized into three groups based on different defect types: bone scaffold process control, deep learning, and cell viability models. The collection of printing parameters,data processing, and feedback of bioprinting information, which ultimately improves printing capabilities, are further discussed. We envision that computer vision may offer opportunities to accelerate bioprinting development and provide a new perception for bone research.
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Yuan Sun;
Kang Yu;
Qing Gao;
Yong He
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摘要:
Projection-based 3D bioprinting(PBP):a powerful method to fabricate 3D cellular structures Three-dimensional(3D)bioprinting has played an important role in tissue engineering and regenerative medicine areas over the past decade[1].Different from traditional cell cultures in Petri dishes,3D bioprinting can build bionic structures with a better potential to become artificial organ substitutes[2–4].With the development of photocurable biomaterials,the projection-based 3D printing method has been successfully applied in biological research[5,6].
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MA LI
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摘要:
More and more investors have been benefiting from the favorable business environment on chinese mainland.CHINA’S Hong Kong Special Administrative Region is located in the south of China and borders the mainland province of Guangdong. Ho Wing Fai, a Hong Kong native with family roots in Guangdong, is the managing director of two printing companies in Hong Kong and on the mainland.
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Heqi Xu;
Jiachen Liu;
Zhengyi Zhang;
Changxue Xu
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摘要:
Introduction In the past decade,three-dimensional(3D)bioprinting,which precisely deposits bioink composed of the biological materials and the living cells into delicate structures with the living cells encapsulated,has made numerous important advances in tissue engineering and regenerative medicine[1,2].Depending on the printing mechanism,3D bioprinting technologies are generally categorized into four types:inkjet-based bioprinting,microextrusion-based bioprinting,laser-assisted bioprinting,and stereolithography-based bioprinting[3].
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胡宏亮
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摘要:
7.何谓雕刻凹版印刷机(intaglio printing press)?专供印制有价证券用途的印刷机,其与照相凹版印刷机比,在图文部分的线条和网点比较深而大,印刷时需要强大的印刷压力,一般压力为150~200kg/cm^(2),因此,雕刻凹版印刷机在结构上应有较高的刚度和强度。从前,为提高印刷适性,增加油墨的转移率,在压印前往纸张上给一定的水分,为湿法印刷。但加水后纸张伸缩大,影响套合,现都采用此法印刷。