Journal of Guangdong University of Technology ›› 2021, Vol. 38 ›› Issue (06): 91-97.doi: 10.12052/gdutxb.210103

Previous Articles     Next Articles

A Research on the Relationship between Scientific Effect, Extension Transformation and Conductive Effect

Ge Biao-biao1,2, Yang Chun-yan1,2   

  1. 1. Institute of Extenics and Innovation Methods, Guangdong University of Technology, Guangzhou 510006, China;
    2. School of Electromechanical Engineering, Guangdong University of Technology, Guangzhou 510006, China
  • Received:2021-07-12 Online:2021-11-10 Published:2021-11-09

HTML

PDF (PC)

2776

Abstract: In order to reduce the fuzziness of using scientific effect in TRIZ, and to accurately and clearly describe the transformation between input and output in the effect, a formal expression method based on Extenics is proposed to study scientific effect. First, the concepts of extension transformation, conductive effect and scientific effect are briefly introduced, and then a formal quantitative research on the relationship between seven important physical effect and extension transformation and conductive effect is carried out, establishing the various objects involved in physical effect Matter-element model, and establishing the correlation between matter-element according to the domain knowledge and correlation rules in Extenics. An active transformation of matter-element in the correlation relationship is implemented based on the knowledge of active transformation and conductive transformation, obtaining the corresponding conductive transformation. Then according to the calculation formula of physical effect and conductive effect in the domain knowledge, the conversion formula of physical effect and conductive effect is obtained. Finally, methods are summarized to establish the general relationship between physical effects and extension transformation and conductive effect. This study describes the main contents of various physical effects accurately and in detail by formal methods, so that the mechanism of various physical effects and the conversion relationship between input and output can be understood. A basis and methods are also provided for solving the contradictions in the field of engineering technology combined with physical effects and extension transformation, and a new idea is provided for finding new scientific effects.

Key words: Extenics, correlation rule, extension transformation, conductive effect, scientific effect, physical effect

CLC Number: 

  • TH122
[1] 杨春燕. 可拓创新方法[M]. 北京: 科学出版社, 2017: 70-102.
[2] 杨春燕, 蔡文. 可拓学[M]. 北京: 科学出版社, 2014: 58-75.
[3] 汤龙, 杨春燕. 复杂基元相关网下的传导变换[J]. 智能系统学报, 2016, 11(1): 104-110.
TANG L, YANG C Y. Conductive transformation under complicated basic-element correlative network [J]. CAAI Transactions on Intelligent Systems, 2016, 11(1): 104-110.
[4] 王丰, 顾佼佼, 林瑜. 积累N次主动变换的传导知识挖掘[J]. 智能系统学报, 2019, 14(5): 1035-1039.
WANG F, GU J J, LIN Y. Mining conducted knowledge by accumulating N active transformations [J]. CAAI Transactions on Intelligent Systems, 2019, 14(5): 1035-1039.
[5] 王丰, 顾佼佼, 孙江, 等. 传导过程元与过程元可拓集及其工程应用[J]. 广东工业大学学报, 2018, 35(5): 1-4.
WANG F, GU J J, SUN J, et al. Transmission process element and process element extension set and its engineering application [J]. Journal of Guangdong University of Technology, 2018, 35(5): 1-4.
[6] 成思源, 周金平, 郭钟宁. 技术创新方法——TRIZ理论及其应用[M]. 北京: 清华大学出版社, 2014: 200-203.
[7] 王立新, 乔晓东, 刘晟杰, 等. TRIZ中科学效应库的研究综述[J]. 现代制造工程, 2021(5): 154-160.
WANG L X, QIAO X D, LIU S J, et al. A summary of research on the scientific effect database in TRIZ [J]. Modern Manufacturing Engineering, 2021(5): 154-160.
[8] YAN W, ZANNI-MERK C, CAVALLUCCI D, et al. An ontology-based approach for using physical effects in inventive design [J]. Engineering Applications of Artificial Intelligence, 2014, 32: 21-36.
[9] NEGNY S, BELAUD J P, ROBLES G C, et al. Toward an eco-innovative method based on a better use of resources: application to chemical process preliminary design [J]. Journal of Cleaner Production, 2012, 32: 101-113.
[10] BENMOUSSA R, GUIO R D, DUBOIS S, et al. New opportunities for innovation breakthroughs for developing countries and emerging economies [M]. Cham: Springer, 2019: 70-78.
[11] 刘尚, 史冬岩, 米粮川, 等. 输入输出流效应推理的可拓学方法[J]. 机械设计, 2017, 34(5): 86-93.
LIU S, SHI D Y, MI L C, et al. Extentics method of effect reasoning restrained by input output flow [J]. Journal of Machine Design, 2017, 34(5): 86-93.
[12] 白仲航, 张敏. TRIZ第2类标准解的可拓变换表示及应用研究[J]. 机械设计, 2019, 36(5): 122-127.
BAI Z H, ZHANG M. Extension transformation expression and application research of TRIZ’s second standard solutions [J]. Journal of Machine Design, 2019, 36(5): 122-127.
[13] 周贤永, 陈光. TRIZ40条发明原理的可拓变换表述形式研究[J]. 科技进步与对策, 2011, 28(5): 107-115.
ZHOU X Y, CHEN G. Research on the extension transformation form of TRIZ 40 invention principles [J]. Science & Technology Progress and Policy, 2011, 28(5): 107-115.
[14] REN S D, GUI F Z, ZHAO Y W, et al. Accelerating preliminary low-carbon design for products by integrating TRIZ and Extenics methods [J]. Advances in Mechanical Engineering, 2017, 9(9): 1-18.
[15] 江帆, 陈玉梁, 陈江栋, 等. 基于TRIZ与可拓学的盘类铸件打磨方案设计[J]. 广东工业大学学报, 2019, 36(2): 20-25.
JIANG F, CHEN Y L, CHEN J D, et al. Design of a grinding equipment based on TRIZ and Extenics [J]. Journal of Guangdong University of Technology, 2019, 36(2): 20-25.
[16] 赵敏, 张武城, 王冠殊. TRIZ进阶实战——大道至简的发明方法[M]. 北京: 机械工业出版社, 2015: 207-228.
[17] 苗恩铭, 费业泰. 传统测量的热膨胀系数局限性论证[J]. 合肥工业大学学报(自然科学版), 2002(5): 641-644.
MIAO E M, FEI Y T. On the limitation of traditional coefficient of thermal expansion [J]. Journal of Hefei University of Technology (Natural Science), 2002(5): 641-644.
[18] KHADKIKAR P. The principles and properties of thermostat metals [J]. JOM, 1993, 45(6): 39-42.
[19] 蔡平海. 热双金属综述[J]. 上海钢研, 1991(5): 1-19.
[20] 魏源, 李锋. 材料力学[M]. 北京: 机械工业出版社, 2019.
[21] LAUMANN D, HAYES P, ENZINGMÜLLER C, et al. Magnetostriction measurements with a low-cost magnetostrictive cantilever beam [J]. American Journal of Physics, 2020, 88(6): 448-455.
[22] 冯红亮, 杨志红, 扈晓斌. 磁致伸缩效应原理及在工业测量中的应用[J]. 仪表技术与传感器, 2009(S1): 344-346.
FENG H L, YANG Z H, HU X B. Principle of magnetostrictive effect and application in industry measurement [J]. Instrument Technique and Sensor, 2009(S1): 344-346.
[23] 韩述斌. 固体物理效应与现代传感器技术[J]. 压电与声光, 1997(4): 20-23.
HAN S B. Solid state physic effects and modern transducer technology [J]. Piezoelectrics & Acoustooptics, 1997(4): 20-23.
[24] 叶正芳, 徐正堂. 压电陶瓷压电应变常数d33的测试方的研究[J]. 压电与声光, 1993(4): 37-43.
YE Z F, XU Z T. Investigation of methods for measuring the constant d33 of piezoelectric ceramics [J]. Piezoelectrics & Acoustooptics, 1993(4): 37-43.
[25] 陈玉精, 顾进锋, 闵德. 水汽化潜热测定装置[J]. 上海计量测试, 2015, 42(5): 18-20.
CHEN Y J, GU J F, MIN D. A testing device for latent heat of water vaporization [J]. Shanghai Measurement and Testing, 2015, 42(5): 18-20.
[26] 林廷艺. 浅谈形状记忆合金的应用及发展[J]. 世界有色金属, 2019(11): 165.
LIN T Y. Application and development of shape memory alloys [J]. World Nonferrous Metals, 2019(11): 165.
[1] Gao Hong, Guo Yuan-yuan, Liu Xing. The Italian Domination Number of Graphs Based on Decomposition and Combination Chain Method [J]. Journal of Guangdong University of Technology, 2023, 40(02): 1-4.
[2] Chen Jin-cheng, Cheng Si-yuan, Yang Xue-rong. Patent Group Circumvention Design Based on Function Requirement and Extension Theory [J]. Journal of Guangdong University of Technology, 2023, 40(02): 5-14,29.
[3] Wang Jin-guang, Tang Min-cong, Yang Zhen-hao, Wang Hao. Research on Extension Design Ideas Generation of Plastic Recycling and Processing System for Cosmetics Bottles [J]. Journal of Guangdong University of Technology, 2022, 39(06): 130-140.
[4] Wu Jia-jian, Yang Chun-yan. A Research on Extension Model Establishment Method of TRIZ Flow Analysis [J]. Journal of Guangdong University of Technology, 2022, 39(02): 12-18.
[5] Chen Mei-rong, Jiang Fan, Huang Hao-xiang, Huang Hai-tao, Huang Yu-qin. Study and Application of Substance-field Extension Method [J]. Journal of Guangdong University of Technology, 2022, 39(02): 19-25,90.
[6] Wang Tao, Li Wen-jie. A Research on Innovative Design of Traditional Residential Building Reconstruction Based on Extension Theory—Taking Baoshui Village in Fangshan District, Beijing as an Example [J]. Journal of Guangdong University of Technology, 2022, 39(02): 26-31.
[7] Chen Jin-cheng, Cheng Si-yuan, Yang Xue-rong. A Redesign Method Based on Function Analysis and Extension Theory [J]. Journal of Guangdong University of Technology, 2022, 39(02): 32-38.
[8] Zhang Zi-ran, Li Xing-sen, Guo Heng-fa, Wang Hao. A Creative Generation Method Solving Design Problems Based on Extenics—Removing the Cigarette Butts on the Ground of Ouzhuang Metro Station as an Example [J]. Journal of Guangdong University of Technology, 2021, 38(06): 103-110.
[9] Wang Pei-zhuang, Zeng Fan-hui, Sun Hui, Li Xing-sen, Guo Jian-wei, Meng Xiang-fu, He Jing. Extension of Knowledge Graph and its Intelligent Extension Library [J]. Journal of Guangdong University of Technology, 2021, 38(04): 9-16.
[10] Li Qian-jing, Cheng Si-yuan, Chen Xiao-jing, Yang Xue-rong, Chen Bin. A Patent Evasion Design of Dust-free Blackboard Based on Extension and CAI Technology [J]. Journal of Guangdong University of Technology, 2021, 38(02): 20-25,47.
[11] Yuan Ping. An Innovation of New Professional Farmers Cultivation Model Based on Extenics [J]. Journal of Guangdong University of Technology, 2021, 38(01): 5-12.
[12] Guo Heng-fa, Li Xing-sen, Liu Ren-hu. A Creative Generation Method of Product Design Based on Extenics and TRIZ — Taking the Design of Mobile Phone Charger as an Example [J]. Journal of Guangdong University of Technology, 2020, 37(05): 7-12.
[13] Li Zi-hao, Yang Chun-yan, Li Wen-jun. An Application of Extension Innovation Method in Generator Innovation Design [J]. Journal of Guangdong University of Technology, 2020, 37(01): 1-6.
[14] Zheng Zhen-ting, Yang Chun-yan. Behavior Knowledge Representation of Mechanical Motion System Based on Affair-element Theory [J]. Journal of Guangdong University of Technology, 2019, 36(06): 1-8,23.
[15] Jiang Fan, Lu Hao-ran, Chen Yu-liang, Qi Xiao-long. Designing a Variable Area Square Table Based on TRIZ and Extenics [J]. Journal of Guangdong University of Technology, 2019, 36(04): 108-112.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Copyright © 2017 Journal of Guangdong University of Technology
Add:729 East Dongfeng RD., Guangzhou PRC. Postcode: 510090
Tel:020-37626653,020-37626139,020-37626396
Email:xbzrb@gdut.edu.cn
Supported:Beijing Magtech