ASTM F1166-07(2013)
海洋系统, 设备和设施的人体工程学设计的标准实施规程

Standard Practice for Human Engineering Design for Marine Systems, Equipment, and Facilities

被代替

ASTM F1166-07(2013) 发布历史

ASTM F1166-07(2013)由美国材料与试验协会 US-ASTM 发布于 2007。

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ASTM F1166-07(2013) 海洋系统, 设备和设施的人体工程学设计的标准实施规程的最新版本是哪一版？

最新版本是 ASTM F1166-23 。

ASTM F1166-07(2013) 发布之时，引用了标准

• ANSI Z535.2 美国环境和设施安全标志国家标准
• ANSI Z535.3 安全符号标准

ASTM F1166-07(2013)的历代版本如下：

• 2023年 ASTM F1166-23 海洋系统、设备和设施的人类工程设计标准实施规程
• 2022年 ASTM F1166-22 海洋系统、设备和设施的人类工程设计标准实施规程
• 2021年 ASTM F1166-21 海洋系统、设备和设施的人体工程学设计标准实施规程
• 2007年 ASTM F1166-07(2013) 海洋系统, 设备和设施的人体工程学设计的标准实施规程
• 2007年 ASTM F1166-07 海上系统、设备和工具的人体工程设计用标准实施规程
• 1995年 ASTM F1166-95a(2006) 海洋系统、设备和设施的人体工程学设计标准实施规程
• 1995年 ASTM F1166-95a(2000) 海洋系统、设备和设施的人体工程学设计标准实施规程

 

4.1 The objective of this practice is to provide ergonomic design criteria for maritime vessels and structures to ensure that maritime systems and equipment are designed in compliance with requirements for human performance, human workload, health and safety, survivability, and habitability.

4.2 Principles of Human Behavior:

4.2.1 There are basic principles of human behavior that control or influence how each person performs in their workplace. Some of these behaviors are culturally derived, while others are general and uniform across all cultures and geographical regions of the world. These behaviors influence a person's physical, social, and psychological approach toward the work they do and how safely they do that work. Failure to satisfy these behavioral principles in the design of a ship or maritime structure can encourage, or even coerce, maritime personnel into taking unsafe risks in their everyday activities. It is, therefore, imperative that designers of ships and maritime equipment, systems, and facilities know these principles to provide a safe and efficient workplace for maritime personnel.

4.2.2 These principles include:

4.2.2.1 If the design of the ship or maritime facility is considered to be unsafe or inefficient by the crew, it will be modified by the users, often solving the initial problem but introducing others that may be as bad, or worse, than the original.

4.2.2.2 Equipment design shall be such that it encourages safe use, that is, does not provide hardware and software that can be used in an unsafe manner.

4.2.2.3 If the equipment or system is not designed to operate as the users' cultural and stereotypical expectations lead them to think that it will operate, the chance for human error is significantly increased.

4.2.2.4 If equipment or systems are perceived by operators/maintainers to be too complex or require more effort to operate or maintain than they believe is necessary, they will always look for a “shortcut.” Further, this “shortcut” may be perceived as being safe when it is not.

4.2.2.5 No amount of training, company or organizational policy, threats of retaliatory action, warning notes in a technical manual or training guide, or pleading with personnel to be safe on the job can overcome poor design that encourages, leads, or even coerces personnel into unsafe acts on the job. The most efficient way to prevent unsafe design from contributing to an accident is to eliminate the unsafe design.

4.2.2.6 Equipment users tend to be very unimaginative when it comes to identifying unsafe features and they do not visualize the consequences of unsafe acts. Therefore, do not expect that an “obviously dangerous” task will always be recognized as such by every user.

4.2.2.7 Designers shall consider the possibility for human error and design equipment so that incorrect use (deliberate or accidental) will result in little or no harm to the user.

4.2.2.8 Equipment operators and maintainers tend to make guesses as to what a label, instruction, or operational chart states if it is not complete, legible, readable, and positioned correctly.

4.2.2.9x00a......

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标准号

ASTM F1166-07(2013)

发布

2007年

发布单位

美国材料与试验协会

替代标准

ASTM F1166-21

当前最新

ASTM F1166-23

 

 

引用标准

ANSI Z535.2 ANSI Z535.3 MIL-HDBK-454 MIL-STD-130

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