https://www.metodolog.ru/triz-journal/archives/1998/11/d/index.htm
| No. | Title | Explanation |
|---|---|---|
| Moving objects | Objects which can easily change position in space, either on their own, or as a result of external forces. Vehicles and objects designed to be portable are the basic members of this class. | |
| Stationary objects | Objects which do not change position in space, either on their own, or as a result of external forces. Consider the conditions under which the object is being used. | |
| 1 | Weight of moving object | The mass of the object in a gravitational field. The force that the body exerts on its support or suspension. |
| 2 | Weight of stationary object | The mass of the object in a gravitational field. The force that the body exerts on its support, suspension, or the surface on which it rests. |
| 3 | Length of moving object | Any one linear dimension of the object, not necessarily the longest dimension. |
| 4 | Length of stationary object | Any one linear dimension of the object, not necessarily the longest dimension. |
| 5 | Area of moving object | The square measure of the surface, either internal or external, of an object. The part of a plane or surface occupied by the object. |
| 6 | Area of stationary object | The square measure of the surface, either internal or external, of an object. The part of a plane or surface occupied by the object. |
| 7 | Volume of moving object | The cubic measure of space occupied by the object (e.g., length × width × height for a rectangular object, height × area for a cylinder). |
| 8 | Volume of stationary object | The cubic measure of space occupied by the object (e.g., length × width × height for a rectangular object, height × area for a cylinder). |
| 9 | Speed | The velocity of an object; the rate of a process or action over time. |
| 10 | Force | The interaction between systems. In Newtonian physics, force = mass × acceleration. In TRIZ, force is any interaction intended to change an object's condition. |
| 11 | Stress or pressure | Force distributed over a unit area. Also refers to tension within materials. |
| 12 | Shape | The external contours and appearance of a system. |
| 13 | Stability of the object's composition | The wholeness or integrity of the system; the relationship between the system's constituent elements. Wear, chemical decomposition, and disassembly all decrease stability. Increasing entropy decreases stability. |
| 14 | Strength | The extent to which the object can resist changing or breaking in response to applied force. |
| 15 | Duration of action by a moving object | The time that the object can perform its intended action. Service life, durability, or mean time between failures. |
| 16 | Duration of action by a stationary object | The time that the object can perform its intended action. Service life, durability, or mean time between failures. |
| 17 | Temperature | The thermal condition of the object or system. Includes related thermal parameters such as heat capacity that affect the rate of temperature change. |
| 18 | Illumination intensity | Light flux per unit area. Also includes other illumination characteristics of the system such as brightness and light quality. |
| 19 | Use of energy by moving object | The measure of the object's capacity for doing work. Energy is the product of force times distance. Includes energy provided by the super-system (such as electrical energy or heat) required to perform a particular job. |
| 20 | Use of energy by stationary object | The measure of the object's capacity for doing work. Energy is the product of force times distance. Includes energy provided by the super-system (such as electrical energy or heat) required to perform a particular job. |
| 21 | Power | The time rate at which work is performed. The rate of energy use. |
| 22 | Loss of Energy | Use of energy that does not contribute to the job being done. Reducing energy loss sometimes requires different techniques from improving energy use, which is why this is a separate category. |
| 23 | Loss of substance | Partial or complete, permanent or temporary loss of some of a system's materials, substances, parts, or subsystems. |
| 24 | Loss of Information | Partial or complete, permanent or temporary loss of data or access to data in or by a system. Frequently includes sensory data such as aroma, texture, etc. |
| 25 | Loss of Time | The duration of an activity. Improving the loss of time means reducing the time taken for the activity. Often referred to as "cycle time reduction." |
| 26 | Quantity of substance/the matter | The number or amount of a system's materials, substances, parts, or subsystems which might be changed fully or partially, permanently or temporarily. |
| 27 | Reliability | A system's ability to perform its intended functions in predictable ways and under specified conditions. |
| 28 | Measurement accuracy | The closeness of the measured value to the actual value of a property of a system. Reducing the error in a measurement increases its accuracy. |
| 29 | Manufacturing precision | The extent to which the actual characteristics of the system or object match the specified or required characteristics. |
| 30 | External harm affects the object | The susceptibility of a system to externally generated harmful effects. |
| 31 | Object-generated harmful factors | Harmful effects that reduce the efficiency or quality of the system's functioning. These harmful effects are generated by the object or system as part of its operation. |
| 32 | Ease of manufacture | The degree of facility, comfort, or effortlessness in manufacturing or fabricating the object or system. |
| 33 | Ease of operation | The simplicity of the process. A process is not easy if it requires many people, many steps, or special tools. "Hard" processes have low yield and "easy" processes have high yield; they are easy to perform correctly. |
| 34 | Ease of repair | Quality characteristics such as convenience, comfort, simplicity, and time required to repair faults, failures, or defects in a system. |
| 35 | Adaptability or versatility | The extent to which a system or object positively responds to external changes. Also, a system that can be used in multiple ways or under a variety of circumstances. |
| 36 | Device complexity | The number and diversity of elements and element interrelationships within a system. The user may be an element that increases complexity. The difficulty of mastering the system is a measure of its complexity. |
| 37 | Difficulty of detecting and measuring | Measuring or monitoring systems that are complex, costly, require much time and labor to set up and use, or have complex relationships between components demonstrate difficulty of detecting and measuring. Increasing cost of measuring to achieve a satisfactory error level is also a sign of increased difficulty. |
| 38 | Extent of automation | The extent to which a system or object performs its functions without human interface. The lowest level is a manually operated tool. For intermediate levels, humans program the tool, observe its operation, and interrupt or re-program as needed. At the highest level, the machine senses the operation needed, programs itself, and monitors its own operations. |
| 39 | Productivity | The number of functions or operations performed by a system per unit time. The output per unit time, or the cost per unit output. |