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Week
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Topics
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Study Metarials
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1
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Machine design and manufacturing OHS. Diagnostics, machinery, equipment, apparatus, design, production, manufacturing.
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R1-R7 and SR1-SR7
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2
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Materials, standards, machine elements, fasteners. material damage. OHS in welding, heat treatment, casting and mechanical processing errors.
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R1-R7 and SR1-SR7
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3
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Material strength. Minimum safety requirements for work equipment. Industrial materials.
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R1-R7 and SR1-SR7
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4
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Sensors and sensors. Working indoors. OHS in lifting vehicles. Lifting, handling, stacking.
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R1-R7 and SR1-SR7
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5
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Classification and elements of lifting devices. Safe use of lifting gear. Periodic checks of lifting gear.
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R1-R7 and SR1-SR7
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6
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OHS in motor vehicles. Documents of motor vehicle and construction machinery operators. Works with forklifts and cranes.
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R1-R7 and SR1-SR7
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7
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OHS in work done with construction machinery. Maintenance and repair of motor vehicles and construction machinery.
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R1-R7 and SR1-SR7
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8
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Periodic testing of motor vehicles and construction machinery. OHS in workshop and manufacturing. OHS in hand tools. Pneumatic, hydraulic, mechanical installations.
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R8-R10 and SR8-SR10
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9
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Risks and considerations that may arise in the use of electrical appliances.
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R8-R10 and SR8-SR10
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10
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Maintenance and repair works OHS. Maintenance and repair of machinery, electrical installations. Hazards and issues that may arise during maintenance and repair works. OHS before, during and after maintenance and repair. Pressure vessel types and classification.
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R8-R10 and SR8-SR10
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11
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Risks caused by pressure vessels and protection measures. Safety in boilers. Safety in compressors. OHS in pressurized tanks and cylinders.
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R8-R10 and SR8-SR10
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12
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Periodic checks and test techniques of pressure vessels. Responsibilities of manufacturers. Responsibilities of manufacturers on work equipment.
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R8-R10 and SR8-SR10
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13
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Signs and instructions for safe use of machines. Machines, machine tools, classes, production methods. Installations, steam, heating, sanitary, air conditioning, cooling installations.
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R8-R10 and SR8-SR10
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14
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Measurement, measurement, dimensions, units. Bench and tools. Boilers, chimneys, pumps, compressors, lifting tools, lathes, milling machines, planers, drills, grinding machines. Relevant legislation and applications.
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R8-R10 and SR8-SR10
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Prerequisites
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-
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Language of Instruction
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Turkish
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Responsible
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Assoc. Prof. Dr. Ercüment N. DİZDAR
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Instructors
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1-)Profesör Dr. İbrahim Çiftçi
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Assistants
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Prof. Dr. İbrahim ÇİFTÇİ
Assoc. Prof. Dr. Ercüment N. DİZDAR
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Resources
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R1. Dizdar, E. N., Üretim Sistemlerinde Olası İş Kazaları İçin Bir Erken Uyarı Modeli, Gazi Üniversitesi, Endüstri Mühendisliği, 1998.
R2. Dizdar, E. N., İş Güvenliği, Alver Matbaası, 2000.
R3. Dizdar, E. N., Ergonomi, ABP Yayın Evi, 2008.
R4. Dizdar, E. N., İş Hukuku, Dilara Yayınevi & Matbaacılık, 2004.
R5. Dizdar, E. N., İş Güvenliği, Murathan Yayınevi, 4. Baskı, 2008.
R6. Dizdar, E. N., İş Güvenliği, Dilara Yayın Evi, 2003.
R7. Dizdar, E. N., İş Güvenliği Mevzuatı, AÜ, 2015.
R8. Dizdar, E. N., İş Sağlığı ve Güvenliği Yönetim Sistemleri, AÜ, 2014.
R9. Dizdar, E. N., Tehlike Analiz Teknikleri, Gazi Üniversitesi, FBE, 2002.
R10. Dizdar, E. N., Kaza Sebeplendirme Yaklaşımları, Mesleki Sağlık ve Güvenlik, 2001.
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Supplementary Book
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SR1. AICHE, Guidelines for Chimical Transportation Safety, Security and Risk Management, 2 nd Ed. 2008.
SR2. AICHE, Guidelines for Safe Automation of Chemical Processes, 2 nd Ed. 2016.
SR3. BS 8800, Guide to Occupational Health and Sefety Management Systems, 1996.
SR4. CCPS, Guidelines for Hazard Evaluation Procedures, 3rd Ed. 2008.
SR5. Dikshith, T., S., S., Handbook of Chemicals and Safety, CRC Press, 2017.
SR6. Frick K, W. J., Reviewing Occupational Health and Safety Management - Multiple Roots. Amsterdam: Elsevier, 2000.
SR7. ILO, Ergonomic Checkpoints, Geneva, 1996.
SR8. ILO, Guidelines on Occupational Safety and Health Management Systems. Geneva: International Labour Office, 2001.
SR9. Robson L, C. J., The Effectiveness of Occupational Health And Safety Management Systems, Ins for Work and Health, 2005.
SR10. U.S. Department of Health and Human Services, NIOSH, OSH Guidance Manual Hazardous, 1985, USA.
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Goals
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To know the concepts and definitions about machine design and manufacturing in Occupational Health and Safety. Materials, machine elements, fasteners. explanation of material damage concepts. To learn OHS measures in welding, heat treatment, casting and mechanical processing errors. Definition of minimum OHS requirements for work equipment. Understanding OHS measures in confined spaces and the use of lifting equipment. Classification of periodic controls of machinery, tools and equipment. To know OHS measures in works done with construction machines. To know the issues to be considered in the maintenance and repair of motor vehicles and construction machines. To know periodic tests of construction machines. To know OHS measures in workshops, manufacturing and working with hand tools. Pneumatic, hydraulic, mechanical installations and electrical equipment that may arise in the use of risks and to know the issues to be aware of. To learn OHS measures in maintenance and repair works. To know OHS risks and protection measures in pressure vessels and boilers. To learn the responsibilities of manufacturers about work equipment. To know the risks to be experienced in the use of machines and tools in manufacturing. Boilers, chimneys, pumps, compressors, lifting tools, lathes, milling, planers, drills, grinding machines to learn the measures to be taken.
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Content
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Machine design and manufacturing OHS. Diagnostics, machinery, equipment, apparatus, design, production, manufacturing. Materials, standards, machine elements, fasteners. material damage. OHS in welding, heat treatment, casting and mechanical processing errors. Material strength. Minimum safety requirements for work equipment. Industrial materials. Sensors and sensors. Working indoors. OHS in lifting vehicles. Lifting, handling, stacking. Classification and elements of lifting devices. Safe use of lifting gear. Periodic checks of lifting gear. OHS in motor vehicles. Documents of motor vehicle and construction machinery operators. Works with forklifts and cranes. OHS in work done with construction machinery. Maintenance and repair of motor vehicles and construction machinery. Periodic testing of motor vehicles and construction machinery. OHS in workshop and manufacturing. OHS in hand tools. Pneumatic, hydraulic, mechanical installations. Risks and considerations that may arise in the use of electrical appliances. Maintenance and repair works OHS. Maintenance and repair of machinery, electrical installations. Hazards and issues that may arise during maintenance and repair works. OHS before, during and after maintenance and repair. Pressure vessel types and classification. Risks caused by pressure vessels and protection measures. Safety in boilers. Safety in compressors. OHS in pressurized tanks and cylinders. Periodic checks and test techniques of pressure vessels. Responsibilities of manufacturers. Responsibilities of manufacturers on work equipment. Signs and instructions for safe use of machines. Machines, machine tools, classes, production methods. Installations, steam, heating, sanitary, air conditioning, cooling installations. Measurement, measurement, dimensions, units. Bench and tools. Boilers, chimneys, pumps, compressors, lifting tools, lathes, milling machines, planers, drills, grinding machines. Relevant legislation and applications.
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Program Learning Outcomes |
Level of Contribution |
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1
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Understands the philosophy of Interdisciplinary Approach in the field of Occupational Health and Safety and works according to the Team Spirit and Teamwork Approach in identifying and solving problems related to this field.
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-
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2
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Knows and applies OHS measures by evaluating physical, chemical, biological, psychological and ergonomics risk factors in workplaces.
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2
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3
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Knows Occupational Health and Safety in labor law, social security law and OHS legislation and follows the currentity of this information in constant change.
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-
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4
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Occupational Health and Safety by dominating the social and technical information, business groups and sectors according to the types of hazard assessment and risk analysis makes.
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3
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5
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Has and applies comprehensive and technical knowledge about working conditions, environmental factors and protection principles in workplaces according to hazard classes.
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4
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6
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Has the necessary knowledge and skills to identify, analyze, solve and improve working conditions in sectoral and professional groups.
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4
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7
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Knows and applies OHS measures to be taken in flammable, explosive and hazardous materials and wastes in design and manufacturing.
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5
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8
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Has knowledge about the detection of OHS hazards in agriculture, farming, electricity, forestry, mining and analyzing risks and taking necessary measures.
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3
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9
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Knows the provisions of the legislation and EC requirements on Personal Protective Equipment and selects PPE according to business groups and occupations in the sectors and ensures compliance with the conditions and rules of use.
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4
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10
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Have knowledge about scientific research techniques in the field of Occupational Health and Safety and interpret statistical information on the subject.
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-
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11
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Has the ability to research scientific and applied studies in the field of Occupational Health and Safety, conduct scientific studies and make academic writing (articles, papers, reports, etc.) and oral presentations.
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-
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12
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Contributes to the Occupational Health and Safety Management Approach and the development and placement of the Occupational Health and Safety Culture.
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-
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13
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Has the ability of Corporate and Social Communication and plays an active role in the sociological and psychological adoption and rooting of Occupational Health and Safety perception.
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-
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14
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Knows the principles of scientific research in professional life and work in the field of Occupational Health and Safety and adopts ethical rules and acts in accordance with these values.
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-
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15
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Occupational Health and Safety Students who graduate from the program with thesis, gain the opportunity to continue to the doctoral program, in addition, they are entitled to take the Class B Occupational Safety Specialist examination according to the relevant legislation (Regulation on Duties, Authorities and Responsibilities of Occupational Safety Specialist etc.).
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3
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