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Discover occupational safety documents for exhaust pipe manufacturing with detailed and practical guidance. This material provides important knowledge to help ensure worker safety and production efficiency. Don’t miss the opportunity to enhance workplace safety!

Table of Contents

PART I: CURRENT STATE OF SAFETY IN THE EXHAUST PIPE MANUFACTURING INDUSTRY

I. General Situation

The Ministry of Labour, Invalids and Social Affairs informs sectors and localities of the occupational accident situation in the first 6 months of 2024 and outlines key solutions to proactively prevent incidents and accidents in the last 6 months of 2024. According to reports from 61 out of 63 centrally governed provinces and cities, in the first 6 months of 2024, there were a total of 3,201 occupational accidents nationwide (a decrease of 227 cases, equivalent to 7.09% compared to the same period in 2023), resulting in 3,065 victims (a decrease of 197 people, equivalent to 6.04% compared to the first 6 months of 2023), including both employees under labor contracts and those working without labor contracts. Specifically:

Number of fatal occupational accidents: 320 cases, a decrease of 25 cases (7.25%) compared to the first 6 months of 2023 (including 245 cases in areas with labor relations, a decrease of 28 cases or 10.3%; and 75 cases in areas without labor contracts, an increase of 3 cases or 4.2% compared to the first 6 months of 2023);
Number of deaths due to occupational accidents: 346 people, a decrease of 7 people or 1.98% compared to the same period in 2023 (including 268 in areas with labor relations, a decrease of 13 people or 4.63%; and 78 in areas without labor contracts, an increase of 6 people or 8.33%).
Number of people seriously injured: 810 people, an increase of 26 people or 3.32% compared to the first 6 months of 2023 (including 710 in areas with labor relations, a decrease of 5 people or 0.7%; and 100 in areas without labor contracts, an increase of 31 people or 44.92%).

Download the PDF file Occupational Accident Report – First 6 Months of 2024 issued by the Ministry of Labour, Invalids and Social Affairs.

The occupational accident situation in the first 6 months of 2024 in both sectors with and without labor relations saw a decrease in the number of deaths and fatal accidents compared to the same period in 2023.

II. Some occupational accidents in exhaust pipe manufacturing plants

In the exhaust pipe manufacturing industry, occupational accidents can occur for various reasons. Below are some typical examples:

Accident due to contact with machinery: A worker was seriously injured when caught in an exhaust pipe cutting machine due to a lack of safety guards and non-compliance with work procedures.

Accident due to inhalation of dust and toxic gases: Workers in the factory were poisoned because they did not use adequate respiratory protection equipment when working with chemicals and production dust.

Accident due to electrical incident: A fire occurred due to an electrical short circuit in the wiring system that was not periodically maintained, leading to property damage and danger to workers’ health.

Accident due to lack of safety in transportation: A worker was injured while transporting heavy exhaust pipes without using proper methods and support equipment, causing a serious injury.

These accidents emphasize the importance of implementing strict occupational safety measures and regular employee training to minimize risks in the work environment.

PART II: OCCUPATIONAL SAFETY AND HEALTH WHEN WORKING IN AN EXHAUST PIPE MANUFACTURING PLANT

I. Occupational Safety and Health for Raw Material Cutting Staff

1. Characteristics of Raw Material Cutting Work

The raw material cutting stage in exhaust pipe production is a crucial step that directly affects the quality of the final product. Raw materials, usually coiled steel or aluminum, are fed into the cutting line to create sections of precise dimensions. Precision in cutting is very important, as any error can lead to reprocessing or even scrapping of the material, causing waste and slowing down the production schedule.

The cutting process must be carried out with great care and high precision to ensure the raw material sections are uniform in size and meet the requirements of subsequent processing stages. The cutting machinery is often equipped with advanced technologies and automatic adjustment systems to achieve this precision. Furthermore, regular inspection and periodic maintenance of the cutting equipment are also necessary to maintain work efficiency and minimize breakdowns.

The raw material cutting job not only requires skill and concentration from the workers but also needs smooth coordination between the equipment and the quality control system to ensure that all cut parts meet technical and quality requirements.

2. Types of Occupational Accidents during Raw Material Cutting

During the raw material cutting stage, although it is a basic step in production, there are many potential occupational accident risks if safety measures are not followed. One of the common accidents is being cut or pinched by the cutting machines. This often happens when workers do not use proper protective equipment or do not follow safety procedures while handling materials.

In addition, dust and debris from the cutting process can cause respiratory or eye problems if there is no effective ventilation and eye protection. Furthermore, machinery malfunctions, such as a faulty or improperly maintained cutting machine, can lead to serious accidents, such as electrical incidents or machine failures.

To minimize risks, regular equipment maintenance, ensuring workers use full personal protective equipment, and organizing regular safety training are essential. These measures not only help protect the health and safety of workers but also contribute to improving production efficiency and product quality.

3. Causes of Occupational Accidents during Raw Material Cutting

Occupational accidents during the raw material cutting stage often stem from several main causes. One of the primary causes is the failure to use personal protective equipment. When workers do not wear safety glasses, gloves, or masks, they are easily injured by dust, debris, or direct contact with sharp cutting tools.

In addition, technical failures from machinery are also a significant cause. Cutting machines that are not properly maintained or adjusted can cause unexpected incidents, such as a broken blade or unstable machine operation, leading to accidents.

Furthermore, non-compliance with safe work procedures also contributes to accident risks. For example, workers may develop unsafe work habits, such as handling materials while the machine is running or not performing checks before using the machinery.

Finally, human factors such as fatigue, lack of concentration, or inadequate training are also causes of accidents. To minimize these risks, it is essential to adhere to safety procedures, perform regular equipment maintenance, and provide employee training.

4. Preventive Measures for Occupational Accidents during Raw Material Cutting

To prevent occupational accidents during the raw material cutting stage, implementing safety measures is extremely important. First, workers must be fully trained on safety procedures and the use of personal protective equipment such as glasses, gloves, and masks, to protect them from dust, debris, and sharp objects.

Second, regular maintenance and frequent inspection of cutting machinery are necessary to ensure they operate effectively and safely. The equipment must be properly adjusted and inspected before use to avoid technical incidents that could lead to accidents.

Furthermore, establishing and adhering to safe work procedures is also very important. Workers should be clearly instructed on how to handle materials and machinery, as well as emergency procedures in case of an incident.

Finally, creating a clean and tidy work environment also contributes to minimizing accidents. Debris and dust must be regularly cleaned up to avoid hazards. By combining all these measures, the factory can minimize the risk of occupational accidents and ensure the safety of workers during the raw material cutting process.

5. Occupational Safety Regulations for Raw Material Cutting

To ensure safety in the raw material cutting stage, occupational safety regulations must be strictly implemented. First and foremost, workers must be thoroughly trained on safe work procedures, including the proper use of personal protective equipment such as safety glasses, gloves, and cut-resistant jackets. This protective equipment helps minimize the risk of injury from debris or contact with sharp cutting tools.

The regulations also require that machinery be periodically maintained and regularly inspected to ensure they operate effectively and do not cause incidents. The equipment must be operated according to the manufacturer’s instructions and should not be used if there are signs of damage.

Workers must follow safety procedures when handling raw materials, such as not placing hands near the cutting blade while the machine is operating and using support tools when necessary. Work areas must be kept clean and tidy, with debris and dust regularly cleaned up to avoid the risk of slipping or injury.

Finally, establishing and implementing emergency procedures in case of an accident is very important. Workers should be instructed on how to handle emergency situations and have rescue equipment ready to minimize the consequences when an incident occurs.

6. Handling Emergency Occupational Accident Situations during Raw Material Cutting

When an emergency occupational accident occurs during the raw material cutting stage, handling the situation quickly and effectively is very important to minimize injuries and protect the health of workers. Immediately, workers need to stop machine operations and notify the person in charge or the medical team at the factory. This helps prevent the accident from becoming more serious and ensures timely intervention.

In case of injury, such as being cut or pinched by machinery, workers should be moved to a safe area and receive first aid immediately. For serious injuries, such as heavy bleeding or broken bones, it is necessary to immediately contact emergency services and take the victim to the nearest hospital.

In addition, it is necessary to record the details of the incident to investigate the cause and improve safety procedures. These measures not only help to handle the emergency situation effectively but also help to identify and address risk factors to prevent similar accidents in the future. Regular training and thorough preparation for emergency situations are key to protecting workers and maintaining a safe working environment.

II. Occupational Safety and Health for Shaping and Rolling Staff

1. Characteristics of Shaping and Rolling Work

The work of shaping and rolling is a crucial stage in the exhaust pipe manufacturing process, where raw material sections are transformed into a finished product with the required shape and dimensions. In this stage, the material is usually heated to a high temperature to achieve the necessary flexibility, making the rolling process easier and more effective. When the material reaches the desired temperature, it is passed through the rollers of a rolling machine, where the strong pressure of the rollers gradually forms the material to the correct diameter and shape.

This process not only requires high precision but also demands strict control over temperature and pressure to ensure product quality. The machinery used in this stage often operates at high speeds and with great force, so continuous monitoring and technical adjustments are very important to achieve a product with high uniformity. At the same time, monitoring and maintaining the machinery also need to be done regularly to ensure the machine operates stably and to minimize the risk of incidents.

The work of shaping and rolling requires smooth coordination between the equipment and the workers, along with the application of safety measures to ensure the production process is efficient and safe.

2. Types of Occupational Accidents during Shaping and Rolling

During the process of shaping and rolling materials to produce exhaust pipes, many occupational accident risks can occur if safety measures are not followed. One of the common types of accidents is being pulled into the rollers of the rolling machine. This incident can occur if workers are not careful when near the machinery or when the machinery is not properly maintained. The rollers operate at high speeds and with strong force, so any unwanted contact can cause serious injury.

In addition, the process of heating the material for rolling also poses a risk of burns. High temperatures must be precisely controlled, and workers must be equipped with heat-resistant protective gear to protect against sparks and hot steam. Other incidents include risks from debris or dust generated during the rolling process, which can cause irritation or damage to the respiratory system and eyes if there is no suitable protective equipment.

Finally, the use of old or improperly maintained machinery can also lead to mechanical failures, such as problems with the conveyor or motor, which can cause accidents or serious damage. To minimize these risks, regular maintenance, worker training, and adherence to safety procedures are essential.

3. Causes of Occupational Accidents during Shaping and Rolling

In the shaping and rolling stage, many factors can lead to occupational accidents if not strictly controlled. One of the main causes is unsafe contact with the rollers of the rolling machine. Because the rollers operate at high speeds and with great pressure, workers can be pulled in or come into contact with the machinery if they do not follow proper safety procedures. This often happens when workers are inattentive or do not use appropriate personal protective equipment.

In addition, the process of heating the raw material also poses a risk of burns. If not equipped with heat-resistant protection or if proper preventive measures are not taken, workers can be affected by high temperatures and sparks generated during the heating process.

Mechanical failures from machinery, such as breakdowns or technical errors, are also a common cause. Equipment that is not properly maintained or inspected regularly can lead to sudden incidents, creating danger for workers. Furthermore, dust and debris from the rolling process can cause respiratory or eye problems if there is no suitable ventilation and protection system.

Worker training, regular machine maintenance, and implementing safety measures are necessary to minimize these risks and ensure a safe working environment.

4. Preventive Measures for Occupational Accidents during Shaping and Rolling

To prevent occupational accidents in the shaping and rolling stage, implementing safety measures is extremely important. First, workers need to be fully trained on safe work procedures and the use of personal protective equipment such as gloves, safety glasses, and heat-resistant clothing. This helps protect them from the risk of injury from rollers and exposure to high temperatures.

Regular maintenance and inspection of machinery is another important factor to ensure the machine operates stably and safely. The equipment must be regularly serviced to detect and promptly repair technical faults, preventing incidents that could occur during production.

A ventilation and dust extraction system also needs to be installed and maintained properly to minimize dust and debris generated during the rolling process. This not only helps improve air quality but also protects workers’ health from respiratory problems.

Finally, establishing and adhering to safety procedures when working near machinery is very important. Workers should not come into contact with the rollers when the machine is operating and should perform safety checks before starting work. Ensuring that all procedures and safety measures are strictly implemented helps create a safe and efficient working environment.

5. Occupational Safety Regulations for Shaping and Rolling

To ensure safety in the shaping and rolling stage, occupational safety regulations must be strictly implemented. First of all, workers must be fully trained on the work process, including the use of personal protective equipment such as gloves, safety glasses, and heat-resistant clothing. This helps protect workers from risks such as burns from high temperatures and injuries from rollers.

Machinery must be regularly maintained and inspected to ensure stable and safe operation. Rollers and heating systems must be checked frequently to detect and promptly fix technical problems, preventing incidents that could lead to accidents.

The work process must be carried out according to specific instructions to minimize risk. Workers should not get close to the machinery while it is in operation and should take protective measures when handling raw materials. The ventilation and dust extraction system also needs to be maintained to minimize dust and debris, helping to protect workers’ health.

These regulations are intended to ensure that the work environment not only meets production efficiency requirements but also protects the safety of workers throughout the process of working with rolling and shaping machinery.

6. Handling Emergency Occupational Accident Situations during Shaping and Rolling

When an occupational accident occurs during the shaping and rolling stage, handling the emergency situation quickly and effectively is extremely important to limit damage and protect the health of workers. First, as soon as an incident occurs, workers should quickly stop the machinery and notify the person in charge or the factory’s medical team. Stopping operations immediately helps prevent the accident from becoming more serious.

If a worker is injured by contact with the rollers or burned by high temperatures, they need to receive first aid on the spot and be quickly moved to a safe area. For serious injuries such as heavy bleeding or broken bones, contacting emergency services and taking the victim to the nearest hospital is essential.

After the emergency situation is handled, investigating the cause of the accident is very important. Recording details of the incident, identifying contributing factors, and reviewing the work process helps to identify potential problems and improve safety measures. Implementing these steps not only helps resolve the emergency but also improves the efficiency and safety of future production processes.

III. Occupational Safety and Health for Welding and Pipe Joining Staff

1. Characteristics of Welding and Pipe Joining Work

The work of welding and pipe joining is a crucial stage in the exhaust pipe manufacturing process, aimed at connecting pipe sections together to form a complete product. In this stage, the pipe sections are positioned and welded using various techniques such as electric welding, arc welding, or other advanced welding methods.

The welding process begins with cleaning the surfaces to be welded to ensure a good bond between the pipe sections. The welding technique is chosen depending on the type of material and the technical requirements of the exhaust pipe. Electric welding is often used for small-sized pipes and easily weldable materials, while arc welding or other methods may be applied for larger pipes or difficult-to-weld materials.

Welding requires high precision and attention to detail to ensure the joints are strong and durable. Factors such as welding temperature, welding speed, and operating technique all affect the quality of the joint. To achieve the best results, welders need to have high professional skills and practical experience. At the same time, inspecting and evaluating the quality of the weld joint after completion is very important to ensure the exhaust pipe meets technical and safety standards.

2. Types of Occupational Accidents during Welding and Pipe Joining

During the process of welding and joining pipes, many occupational accident risks can occur if proper safety procedures are not followed. One of the main risks is being burned by contact with the high temperatures from the welding process. Workers can be severely burned by contact with the electric arc or molten materials while performing the work.

In addition, sparks and spatter from the welding process can cause injuries to the eyes and skin. If safety glasses or full protective clothing are not worn, workers are at risk of eye burns or skin damage.

Furthermore, working in an environment with smoke and toxic gases from the welding process can cause respiratory problems. Welding fumes and metal dust can cause lung diseases if there is no effective ventilation system or suitable respiratory protection.

Finally, incidents with welding equipment are also a potential risk. Welding machines or related equipment may malfunction or have technical problems, leading to a risk of fire, explosion, or electric shock. Therefore, regular inspection and maintenance of equipment are very important to minimize the risk of accidents.

These accidents can cause serious consequences, so implementing safety measures and training workers is necessary to protect health and safety during the welding and pipe joining process.

3. Causes of Occupational Accidents during Welding and Pipe Joining

Occupational accidents during the welding and pipe joining process often stem from various causes, related to both human factors and the work environment. A common cause is the failure to use personal protective equipment. Workers not wearing safety glasses, gloves, or heat-resistant clothing can easily be injured by sparks, high temperatures, or spatter during welding.

In addition, non-compliance with safe work procedures and a lack of experience are also major causes. Workers with inadequate training or who do not master welding techniques can make mistakes during the work process, such as incorrect adjustment of welding temperature or failure to ensure joint quality, leading to accidents or equipment damage.

Equipment failures and an unsafe work environment also contribute to accident risks. Welding machinery that is not regularly maintained can have technical problems, creating a risk of fire, explosion, or electric shock. In addition, the lack of an effective ventilation system causes workers to be exposed to smoke and toxic gases, leading to serious health problems.

Finally, carelessness in handling materials and equipment, such as not cleaning the work area, can also create favorable conditions for accidents. To reduce these risks, implementing safety measures and training workers is very important.

4. Preventive Measures for Occupational Accidents during Welding and Pipe Joining

To prevent occupational accidents in the welding and pipe joining stage, applying safety measures is essential. First of all, workers must be fully trained in welding techniques and safety procedures. They need to master the use of welding equipment, as well as personal protection measures. Wearing safety glasses, heat-resistant gloves, and fire-resistant clothing are basic requirements to protect against sparks, high temperatures, and spatter.

Regular maintenance and inspection of welding equipment is another important factor. Ensuring that the machinery works well and has no technical problems helps to minimize the risk of breakdown and accidents. The equipment must be cleaned and maintained properly, and worn or damaged parts need to be replaced promptly.

The work environment also plays an important role in preventing accidents. It is necessary to ensure that the work area has a good ventilation system to remove smoke and toxic gases, and that hazardous areas should be clearly demarcated. Workers should not work in areas with a risk of fire or explosion without effective fire prevention measures.

Finally, there need to be clear and quick incident response procedures. Workers need to know how to react when an accident occurs, including immediately stopping work, providing first aid to the victim, and notifying the relevant authorities. Implementing these measures helps to protect the health of workers and maintain a safe working environment.

5. Occupational Safety Regulations for Welding and Pipe Joining

When performing welding and pipe joining work, occupational safety regulations must be strictly adhered to in order to ensure the health and safety of workers. First, workers must be fully trained in welding techniques and related safety measures. The use of personal protective equipment, including safety glasses, heat-resistant gloves, and fire-resistant clothing, is mandatory to minimize the risk of burns and injuries from sparks and high temperatures.

The work area must be equipped with an effective ventilation system to handle the smoke and toxic gases generated during the welding process. Welding equipment must be periodically inspected and maintained to ensure it works well and does not cause incidents. Workers also need to follow safe work procedures, including maintaining a safe distance from welding equipment and ensuring that power sources are properly insulated.

In addition, fire prevention measures must be fully implemented. There must be easily accessible fire extinguishing equipment in the work area and workers must be trained on how to use them. Incident response and first aid procedures must also be prepared to respond quickly to emergencies.

Compliance with these regulations not only helps protect the health of workers but also ensures the quality and safety of the entire production process.

Complete the tests at occupational safety centers to obtain a certificate of occupational safety training. From there, workers will have a clear understanding of safety knowledge and a valid certification for employment.

6. Handling Emergency Occupational Accident Situations during Welding and Pipe Joining

When an occupational accident occurs during the welding and pipe joining process, quick and effective handling is very important to minimize injuries and ensure worker safety. First, if an accident occurs, the welding work must be stopped immediately to prevent further risks. Workers must quickly assess the victim’s condition and the severity of the injury.

For burns from heat or sparks, the injured area should be immediately cooled with clean, cool water to relieve pain and prevent deeper damage. If possible, remove any materials or equipment that caused the injury to limit the risk of recurrence. In case of electric shock, the power source must be cut off immediately before approaching the victim to avoid the risk of further shock.

After initial handling, the medical team or relevant authorities must be notified immediately to receive professional assistance. If workers are seriously injured, basic first aid such as bandaging and stabilizing the victim should be performed until the rescue team arrives. At the same time, accident reporting procedures must be followed to investigate the cause and improve preventive measures in the future.

Implementing these procedures not only helps to minimize damage but also helps to improve occupational safety procedures, preventing similar incidents from occurring in the future.

IV. Occupational Safety and Health for Surface Treatment Staff

1. Characteristics of Surface Treatment Work

The surface treatment stage in exhaust pipe manufacturing plays a crucial role in ensuring the quality and durability of the final product. During this process, the exhaust pipes are treated to remove impurities, rust, and oxide layers remaining from previous stages. Surface treatment not only cleans the pipe surfaces but also improves the aesthetic appeal and corrosion resistance of the product.

The surface treatment work may include various methods such as grinding, polishing, or applying a protective paint coating. Grinding and polishing help remove rust layers and impurities on the pipe surface, creating a smooth and uniform surface. A protective paint coating is then applied to provide an anti-corrosion layer, helping to protect the pipe from environmental impacts and extend the product’s lifespan.

This process requires high precision to ensure all surfaces are treated uniformly and meet quality requirements. The success of the surface treatment stage not only affects the appearance of the exhaust pipe but also its performance under actual usage conditions.

2. Types of Occupational Accidents during Surface Treatment

During the surface treatment of exhaust pipes, occupational accidents can occur due to contact with equipment and chemicals used in the work. One of the common accidents is injury from contact with grinding or polishing machinery. These tools can cause cuts, abrasions, or even burns if not used correctly or if there is a technical failure.

In addition, contact with chemicals in the protective painting stage can also lead to accidents. Toxic fumes from paint or solvents can cause skin, eye, or respiratory system irritation. In some cases, improper use of spray painting equipment can cause liquid to spill, creating a hazard for workers.

Dust and debris from the grinding process are also a potential cause of occupational accidents. Grinding dust can cause respiratory problems if not controlled by a ventilation system and appropriate protective equipment. Debris or spilled materials can also create a risk of slipping or impact.

These accidents not only affect the health and safety of workers but can also reduce work efficiency and product quality. Therefore, applying preventive and protective measures is extremely important in the surface treatment stage.

3. Causes of Occupational Accidents during Surface Treatment

Occupational accidents during the surface treatment of exhaust pipes often stem from several main causes related to the use of equipment and chemicals. A significant cause is technical failure or improper use of grinding and polishing machines. If the equipment is not regularly maintained or if workers are not fully trained, the likelihood of accidents such as cuts, abrasions, or burns is very high.

Chemicals used in protective painting can also cause accidents. Contact with toxic chemicals without appropriate protective equipment can lead to skin, eye, and respiratory problems. If there is no effective ventilation system, toxic fumes from paint or solvents can cause poisoning or respiratory-related illnesses.

Dust and debris from the grinding process are also a cause of accidents. Small dust particles can get into the eyes or respiratory system, causing discomfort or injury if masks and safety glasses are not used. Spilled debris on the floor can cause slipping or collision if not cleaned up regularly.

These causes show that adhering to safety procedures and using protective equipment is very important to minimize occupational accidents in the surface treatment stage.

4. Preventive Measures for Occupational Accidents during Surface Treatment

To prevent occupational accidents during the surface treatment of exhaust pipes, implementing safety measures is extremely necessary. First, workers need to be thoroughly trained on how to use equipment such as grinders, polishers, and spray painting equipment. Ensuring they understand the safe procedures and how to handle emergency situations is the first step in minimizing risk.

The equipment must be periodically maintained and inspected to ensure it works well and does not cause incidents. The use of personal protective equipment such as gloves, safety glasses, and masks is very important in protecting workers from dust, debris, and toxic chemicals. In particular, during spray painting, it is necessary to ensure the ventilation system works effectively to draw toxic fumes out of the work area.

In addition, the work environment needs to be kept clean and tidy to avoid the risk of slipping or impact from debris or spilled materials. The floor must be cleaned regularly and work areas should be clearly divided to limit collisions between workers.

Finally, adhering to occupational safety regulations and implementing effective preventive measures is key to ensuring a safe working environment and minimizing accidents in the surface treatment stage.

Complete the occupational safety training to be issued a group 3 safety card by the occupational safety training center to complete your work file as required.

5. Occupational Safety Regulations for Surface Treatment

When performing surface treatment of exhaust pipes, compliance with occupational safety regulations is mandatory to ensure the safety of workers and protect the work environment. The first regulation is that all workers must be fully trained on the technical use of grinding, polishing, and spray painting equipment, along with related safety measures. Workers must understand the potential risks and how to respond to emergencies.

Equipment used in the surface treatment process must be regularly inspected and maintained to ensure stable and safe operation. Regulations on the use of personal protective equipment, including gloves, safety glasses, and masks, must be strictly followed to protect workers from dust, debris, and toxic chemicals. Especially during spray painting, it is necessary to ensure that the work area is well-ventilated to minimize the risk of inhaling toxic fumes.

In addition, the work environment must be kept clean, free of debris or spilled materials on the floor, to prevent the risk of slipping or collision. Chemical storage and handling procedures must also be strictly followed to minimize the risk of exposure and ensure safety for everyone.

Compliance with these regulations not only helps protect the health and safety of workers but also improves work efficiency and product quality.

6. Handling Emergency Occupational Accident Situations during Surface Treatment

When an occupational accident occurs during the surface treatment of exhaust pipes, timely and effective handling is very important to minimize damage and ensure worker safety. First, as soon as an incident is detected, workers should immediately stop work and notify their colleagues and superiors to mobilize timely support.

If the accident involves contact with toxic chemicals, the victim needs to be moved out of the hazardous area and the necessary first aid steps taken, such as washing the chemical off the skin with clean water or immediately removing contaminated clothing. For injuries from grinding or cutting, bandaging should be performed and medical services should be called immediately for professional care.

Along with first aid, safety measures need to be reviewed immediately after the incident. This includes checking and repairing damaged equipment, reviewing work procedures, and holding incident review meetings to prevent similar accidents in the future. At the same time, reporting the incident to the relevant authorities and taking corrective measures must be fully implemented to ensure compliance with occupational safety regulations.

These quick and effective handling steps not only help protect the health and lives of workers but also contribute to maintaining safety and stability in the work environment.

PART III: Further Reference