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Keywords

resilience of the industrial chain, technological innovation, manufacturing industry chain

Abstract

As the evaluation unfolds, a notable deficiency surfaces in the assessment of the resilience level within the manufacturing industry chain, spanning instruments, general equipment, and chemical raw materials. This observation underscores an imperative need for augmentation in the inherent capacity of the manufacturing industry chain to effectively withstand and mitigate inherent risks. The empirical inquiry conducted in this context delineates a discernible positive correlation between technological innovation and the augmentation of resilience within the manufacturing industry chain. The emergence of an insightful revelation indicates that the impact of technological innovation on resilience exhibits a threshold effect, contingent upon variables such as market size and Research and Development (R&D) investment. These findings accentuate the pivotal role of technological advancements in fortifying the adaptive capabilities of the manufacturing industry chain, elucidating the intricate interplay between technological innovation, market dynamics, and investments in research and development as integral elements in fostering resilience within this multifaceted industrial ecosystem. This comprehensive investigation meticulously delves into the intricacies of spatiotemporal dynamics characterizing the various manufacturing sectors, unraveling intricate patterns of change over time and across diverse geographical locations. The evaluative framework implemented in this scholarly inquiry is firmly grounded in a methodologically rigorous analysis, employing the normal cloud model as its anchor. Through the systematic application of this sophisticated model, the research diligently conducts a thorough assessment of the resilience attributes inherently embedded within each manufacturing subsector. The resulting insights contribute to a nuanced understanding of the adaptive capacities and inherent robustness exhibited by these subsectors within the broader industrial framework. The examination extends to the assessment of the resilience level within the manufacturing industry chain, encompassing critical components such as instruments, general equipment, and chemical raw materials. Notably, this evaluation reveals a discernible deficiency in the current resilience capacity, indicating an imperative need for augmentation to fortify the industry chain's inherent ability to withstand and mitigate inherent risks. This scholarly endeavor not only identifies the existing gaps but also proposes a path forward for enhancement. By acknowledging the deficiencies and emphasizing the requisite improvements in resilience, the research underscores the imperative of fortifying the manufacturing industry chain against potential disruptions. This multifaceted exploration thus contributes not only to the academic discourse on industrial resilience but also provides practical insights for stakeholders and policymakers seeking to strengthen the adaptive capabilities of the manufacturing sector in the face of evolving challenges. This empirical exploration adeptly discerns a substantiated positive correlation between the infusion of technological innovation and the consequential bolstering of resilience within the intricate tapestry of the manufacturing industry chain. A salient revelation within this research is the identification of a nuanced threshold effect governing the impact of technological innovation on resilience. This effect is intricately contingent upon pivotal variables such as market size and the magnitude of investment in Research and Development (R&D). The findings derived from this discerning investigation serve to underscore the indispensable and critical role that technological advancements play in fortifying the adaptive capacities inherent within the manufacturing industry chain. Noteworthy is the emphasis placed on the multifaceted interplay between technological innovation, the dynamic intricacies of market forces, and the strategic investments made in research and development. This interplay emerges as an integral dynamic within the broader industrial ecosystem, influencing and shaping the resilience trajectory of the manufacturing sector. By shedding light on these intricate relationships, the research not only contributes to the scholarly understanding of the symbiotic relationship between technological innovation and industrial resilience but also offers practical insights for industry stakeholders and policymakers. It prompts a contemplation of strategic approaches in navigating the complexities of market dynamics and optimizing investments in research and development to foster a resilient industrial ecosystem. In essence, this empirical exploration serves as a valuable resource for those seeking a deeper comprehension of the dynamics driving resilience within the manufacturing industry chain, and it encourages strategic interventions to enhance its adaptive capabilities in the everevolving landscape of technological and market dynamics. From the perspective of heterogeneity testing, technological innovation has a significant impact on enhancing the resilience of the industrial chain in low and medium-sized manufacturing industries.

DOI

10.16315/j.stm.2024.01.007

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