New Techniques of Meat Quality Assessment for Detecting Meat Texture

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Bibliográfalaš dieđut
Publikašuvnnas:	Processes vol. 13, no. 3 (2025), p. 640
Váldodahkki:	Liu, Chang
Eará dahkkit:	Li, Yanlei, Sun, Wenming, Ma, Feiyu, Wang, Xiangwu, Yang, Zihao
Almmustuhtton:	MDPI AG
Fáttát:	Mechanical properties Sensory evaluation Quality control Meat processing industry Meat products Biosensors Deformation effects Nanotechnology Computer vision Proteins Air flow Food sources Rheology Quality assessment Food Shear tests Product quality Consumers Viscosity Nutrients Collagen Meat industry Connective tissue Rheological properties Physical properties Meat quality Viscoelasticity Texture Analyzers Meat processing Hyperspectral imaging
Liŋkkat:	Citation/Abstract Full Text + Graphics Full Text - PDF
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022			\|a 2227-9717
024	7		\|a 10.3390/pr13030640 \|2 doi
035			\|a 3181724566
045	2		\|b d20250101 \|b d20251231
084			\|a 231553 \|2 nlm
100	1		\|a Liu, Chang \|u School of Mechanical and Materials Engineering, North China University of Technology, Beijing 100144, China; <email>liuchang2470@163.com</email>; College of Mechanical and Electrical Engineering, Beijing Polytechnic College, Beijing 100042, China; <email>swm@bgy.edu.cn</email> (W.S.); <email>mfy@bgy.edu.cn</email> (F.M.); <email>wxw020619@163.com</email> (X.W.); <email>yzh05201900729@163.com</email> (Z.Y.)
245	1		\|a New Techniques of Meat Quality Assessment for Detecting Meat Texture
260			\|b MDPI AG \|c 2025
513			\|a Journal Article
520	3		\|a Meat, as an essential food source in people’s lives, provides a wealth of nutrients. The physical properties of meat are directly related to its sensory caracteristics, such as elasticity, viscosity, and toughness. Food rheology, as a discipline that studies the deformation and flow behavior of food under force, can effectively characterize these physical properties of meat. The evaluation methods of rheological properties provide a more comprehensive and accurate means of detecting meat quality. This not only helps enhance the quality control level in the meat industry but also holds significant importance for safeguarding consumer rights. This paper reviews the assessment of rheological properties such as sensory evaluation, texture analyzers, and rheometers. The combined application of multiple technologies (such as the integration of hyperspectral imaging (HSI) with computer vision and the fusion of airflow and laser detection) and emerging technologies (such as nanotechnology and biosensor technology) shows potential in predicting the rheological properties of meat. It analyzes the current application status, advantages, and challenges faced by the assessment of rheological properties and provides an outlook on future development trends, offering theoretical references for the objective evaluation of meat quality.
653			\|a Mechanical properties
653			\|a Sensory evaluation
653			\|a Quality control
653			\|a Meat processing industry
653			\|a Meat products
653			\|a Biosensors
653			\|a Deformation effects
653			\|a Nanotechnology
653			\|a Computer vision
653			\|a Proteins
653			\|a Air flow
653			\|a Food sources
653			\|a Rheology
653			\|a Quality assessment
653			\|a Food
653			\|a Shear tests
653			\|a Product quality
653			\|a Consumers
653			\|a Viscosity
653			\|a Nutrients
653			\|a Collagen
653			\|a Meat industry
653			\|a Connective tissue
653			\|a Rheological properties
653			\|a Physical properties
653			\|a Meat quality
653			\|a Viscoelasticity
653			\|a Texture
653			\|a Analyzers
653			\|a Meat processing
653			\|a Hyperspectral imaging
700	1		\|a Li, Yanlei \|u College of Mechanical and Electrical Engineering, Beijing Polytechnic College, Beijing 100042, China; <email>swm@bgy.edu.cn</email> (W.S.); <email>mfy@bgy.edu.cn</email> (F.M.); <email>wxw020619@163.com</email> (X.W.); <email>yzh05201900729@163.com</email> (Z.Y.)
700	1		\|a Sun, Wenming \|u College of Mechanical and Electrical Engineering, Beijing Polytechnic College, Beijing 100042, China; <email>swm@bgy.edu.cn</email> (W.S.); <email>mfy@bgy.edu.cn</email> (F.M.); <email>wxw020619@163.com</email> (X.W.); <email>yzh05201900729@163.com</email> (Z.Y.)
700	1		\|a Ma, Feiyu \|u College of Mechanical and Electrical Engineering, Beijing Polytechnic College, Beijing 100042, China; <email>swm@bgy.edu.cn</email> (W.S.); <email>mfy@bgy.edu.cn</email> (F.M.); <email>wxw020619@163.com</email> (X.W.); <email>yzh05201900729@163.com</email> (Z.Y.)
700	1		\|a Wang, Xiangwu \|u College of Mechanical and Electrical Engineering, Beijing Polytechnic College, Beijing 100042, China; <email>swm@bgy.edu.cn</email> (W.S.); <email>mfy@bgy.edu.cn</email> (F.M.); <email>wxw020619@163.com</email> (X.W.); <email>yzh05201900729@163.com</email> (Z.Y.)
700	1		\|a Yang, Zihao \|u College of Mechanical and Electrical Engineering, Beijing Polytechnic College, Beijing 100042, China; <email>swm@bgy.edu.cn</email> (W.S.); <email>mfy@bgy.edu.cn</email> (F.M.); <email>wxw020619@163.com</email> (X.W.); <email>yzh05201900729@163.com</email> (Z.Y.)
773	0		\|t Processes \|g vol. 13, no. 3 (2025), p. 640
786	0		\|d ProQuest \|t Materials Science Database
856	4	1	\|3 Citation/Abstract \|u https://www.proquest.com/docview/3181724566/abstract/embedded/L8HZQI7Z43R0LA5T?source=fedsrch
856	4	0	\|3 Full Text + Graphics \|u https://www.proquest.com/docview/3181724566/fulltextwithgraphics/embedded/L8HZQI7Z43R0LA5T?source=fedsrch
856	4	0	\|3 Full Text - PDF \|u https://www.proquest.com/docview/3181724566/fulltextPDF/embedded/L8HZQI7Z43R0LA5T?source=fedsrch