Brkić, Aleksandar


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http://cer.ihtm.bg.ac.rs/APP/faces/author.xhtml?author_id=b0a2a39d-5c79-455c-adb2-e066840fb9ac&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
b0a2a39d-5c79-455c-adb2-e066840fb9ac	Brkić, Aleksandar (1)

Projects

Micro- Nanosystems and Sensors for Electric Power and Process Industry and Environmental Protection	Development of a stochastic model for determining the elements of production cycle time and their optimization for serial production in metal processing industry and recycling processes

Author's Bibliography

Gap analysis and risk occurrence on the example of pressure transmitter`s production processes

Vorkapić, Miloš; Ćoćkalo, Dragan; Spasojević-Brkić, Vesna; Đorđević, Dejan; Brkić, Aleksandar

(Belgrade : Institute for research and design in industry, 2019)

TY  - JOUR
AU  - Vorkapić, Miloš
AU  - Ćoćkalo, Dragan
AU  - Spasojević-Brkić, Vesna
AU  - Đorđević, Dejan
AU  - Brkić, Aleksandar
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/3357
AB  - Gap analysis represents a tool for raising the level of performances of products, processes and enterprise organization which is rarely used in risk management. This paper proposes the joint application of Gap and Pareto analysis, in aim to mitigate possible risks in production processes. It is based on the facts that key points in the production process indicate some serious oversights (gaps), characterized as errors, which can grow into risky elements that disturb the manufacturing process and final transmitter assembly. In this paper, finalizing and assembling pressure transmitter elements (modules), created by a domestic manufacturer, served as an example for the Gap analysis. Each electronic transmitter is consisted of three modules: measurement cell, mechanical coupling fixture and enclosure containing the electronics and the terminal block box. Through the implementation and assembly of these modules errors (or elements of potential risks) have been identified. Later on, using the Pareto chart, it has been seen that 80% of errors made during the transmitter manufacturing process have occurred while implementing the first and the third transmitter module. Also, by analyzing the collected gaps, it has been concluded that the critical ones happen while using the existing technology and engaging workforce. In order to eliminate the above-mentioned errors, this paper decidedly presents the Gap analysis steps which should be followed, so the transmitter manufacturing process would be improved in terms of quality. Similar methodology could be applied to other products and processes.
PB  - Belgrade : Institute for research and design in industry
T2  - Journal of Applied Engineering Science
T1  - Gap analysis and risk occurrence on the example of pressure transmitter`s production processes
VL  - 17
IS  - 4
SP  - 590
EP  - 598
DO  - 10.5937/jaes17-23443
ER  -

@article{
author = "Vorkapić, Miloš and Ćoćkalo, Dragan and Spasojević-Brkić, Vesna and Đorđević, Dejan and Brkić, Aleksandar",
year = "2019",
abstract = "Gap analysis represents a tool for raising the level of performances of products, processes and enterprise organization which is rarely used in risk management. This paper proposes the joint application of Gap and Pareto analysis, in aim to mitigate possible risks in production processes. It is based on the facts that key points in the production process indicate some serious oversights (gaps), characterized as errors, which can grow into risky elements that disturb the manufacturing process and final transmitter assembly. In this paper, finalizing and assembling pressure transmitter elements (modules), created by a domestic manufacturer, served as an example for the Gap analysis. Each electronic transmitter is consisted of three modules: measurement cell, mechanical coupling fixture and enclosure containing the electronics and the terminal block box. Through the implementation and assembly of these modules errors (or elements of potential risks) have been identified. Later on, using the Pareto chart, it has been seen that 80% of errors made during the transmitter manufacturing process have occurred while implementing the first and the third transmitter module. Also, by analyzing the collected gaps, it has been concluded that the critical ones happen while using the existing technology and engaging workforce. In order to eliminate the above-mentioned errors, this paper decidedly presents the Gap analysis steps which should be followed, so the transmitter manufacturing process would be improved in terms of quality. Similar methodology could be applied to other products and processes.",
publisher = "Belgrade : Institute for research and design in industry",
journal = "Journal of Applied Engineering Science",
title = "Gap analysis and risk occurrence on the example of pressure transmitter`s production processes",
volume = "17",
number = "4",
pages = "590-598",
doi = "10.5937/jaes17-23443"
}

Vorkapić, M., Ćoćkalo, D., Spasojević-Brkić, V., Đorđević, D.,& Brkić, A.. (2019). Gap analysis and risk occurrence on the example of pressure transmitter`s production processes. in Journal of Applied Engineering Science
Belgrade : Institute for research and design in industry., 17(4), 590-598.
https://doi.org/10.5937/jaes17-23443

Vorkapić M, Ćoćkalo D, Spasojević-Brkić V, Đorđević D, Brkić A. Gap analysis and risk occurrence on the example of pressure transmitter`s production processes. in Journal of Applied Engineering Science. 2019;17(4):590-598.
doi:10.5937/jaes17-23443 .

Vorkapić, Miloš, Ćoćkalo, Dragan, Spasojević-Brkić, Vesna, Đorđević, Dejan, Brkić, Aleksandar, "Gap analysis and risk occurrence on the example of pressure transmitter`s production processes" in Journal of Applied Engineering Science, 17, no. 4 (2019):590-598,
https://doi.org/10.5937/jaes17-23443 . .