Standards Development

Scope

This document specifies the relevant requirements and regulations on how to implement the standard system of corrosion control engineering life cycle in corrosion control engineering.

This document is applicable to corrosion control engineering with different complexity, different scale, different cycle length and different types in different environments. 

Purpose

ISO 23123:2020 'Corrosion Control Engineering Life Cycle - General Requirements" was officially published in 2020. The international standardization system for the life cycle of corrosion control engineering established by this standard was recognized by the Fifth International Conference as the best solution and measure to fundamentally and comprehensively solve corrosion problems in contemporary times!

The international standardization system of corrosion control engineering life cycle is a comprehensive collection of resources from all relevant technological and nontechnological factors that control the core factors that cause corrosion and the boundary factors that contribute to the core culprits and accomplices of corrosion, based on the global perspective of corrosion control engineering life cycle. To ensure the safety of human health, life and property, national security, and ecological environment, based on the economic operation, and to achieve economic growth, all factors that affect the root causes of resistance and corresponding "corrosion" should be addressed. All resources related to technological and nontechnological factors (such as objectives, corrosion sources, materials, technology, design, research and development, manufacturing, construction and installation, storage and transportation, commissioning and acceptance, operation, maintenance and repair, life extension and scrapping, documents and records, resource management, comprehensive evaluation, etc.) that are subject to corresponding control throughout the entire life cycle and green environmental protection optimal benefits chain, shall be carried out within their respective factors. The selection and coordination of factors and their overall situation, and the comprehensive application of modern intelligent artificial intelligence tools in the entire process of resource allocation for the entire system engineering, through the use of scientific, technical, and orderly and effective comprehensive application of all factor resources, develop a set of comprehensive, systematic, coordinated, optimized, interconnected, and interwoven resources.

A comprehensive procedural standard that supports each other, achieving effective passive or proactive control of corresponding corrosion engineering. When passive or proactive control is ineffective, automatic alarm will be triggered! These are the two fundamental and comprehensive solutions to corrosion problems, the "spear" and the "shield", which were recognized by the Fifth International Conference as the best solutions and countermeasures to solve corrosion problems in the contemporary international community: one is to follow the corresponding standards for the corrosion control engineering life cycle. Comprehensively build and implement a passive and effective resistance to all invasions, a high-quality copper and iron barrier that corrodes the entire life cycle from cradle to grave, and a shield of engineering that nothing in the world can pierce through; Another approach is to comprehensively construct and implement proactive and effective measures in accordance with the corresponding standards for corrosion control engineering life cycle, to control corrosion throughout the entire life cycle from cradle to grave, and to become the sharpest engineering "spear" in the world beyond protected objects! It is to minimize the various hazards caused, achieve effective resistance and protection. In the event of ineffective resistance or protection, timely alarm will be given, and effective measures will be taken to prevent or avoid the occurrence of major personal injury, property damage, environmental pollution and other accidents! 

The standards formulated by the international standardization system of corrosion control engineering life cycle are the most modern scientific, practical, timely, effective, and complete in contemporary times. It is divided into two major systems: the main standard system with ISO23123 as the top level, and the standardized implementation management system, standardized implementation operation system, standardized implementation operation supervision system, standardized implementation operation talent management system, standardized implementation operation evaluation system. The top-level assurance standard system is the application guide for the standardization system of international corrosion control engineering. The international standardization system for the corrosion control engineering life cycle not only establishes the main standard system, but also ensures that the main standard system can continuously play its due role in scientificity, applicability, timeliness, effectiveness, and integrity. At the same time, corresponding guarantee standard systems have been developed; The subject standard system is the main body of the international standardization system of corrosion control engineering life cycle, and its guarantee standard system is the prerequisite and guarantee for ensuring the continuous operation and implementation of the subject standard system in terms of scientific, applicability, timeliness, effectiveness, and integrity. The two are coordinated, supported, and promoted mutually.

The guarantee standard system ensures that the subject standardization system can continue its scientific, applicable, timely, effective, and complete operation and implementation through the following aspects:

1. The main management responsibility of the standardized implementation management system is to manage the scientific, timely, and complete standards of the main body itself;

2. The main responsibility of the standardized implementation operation system is to apply the operation of Dai Minghuan (P, D, C, A) and the overall operation of Zhu Ming to ensure the adaptability and effectiveness of the main standards;

3. The main responsibility of the standardized implementation and operation evaluation system is to use Ishikawa Shin's fishbone diagram (human, machine, material, method, environment) scientific causal analysis method to ensure the continuous scientific, applicability, timeliness, effectiveness, and completeness of the main standard system;

4. Standardized implementation and operation of talent management system;

5. Standardized implementation, operation supervision and supervision system;

6. Guidelines for the application of the international standardization system of corrosion control engineering life cycle.

For any corrosion engineering project, according to the requirements of international standardization system of corrosion control engineering life cycle, several different construction drawings for the life cycle control of corrosion control engineering are made according to the different corrosion source factors on the protected object area, to achieve effective passive or proactive control of the corresponding corrosion engineering and achieve the best benefits that corrosion control engineering brings to humanity! When passive or proactive control is ineffective, it automatically alarms to prevent or avoid major accidents such as life-threatening accidents and environmental pollution!

By fully applying the content of the international standardization system of corrosion control engineering life cycle and utilizing modern intelligent and digital scientific tools, corrosion control engineering can achieve maximum benefits!

The proposed project further unifies the understanding, determines the direction, goals, and tasks of establishing a complete and comprehensive international standardization system of corrosion control engineering life cycle, and solves corrosion problems that commonly exist in various industries, enabling the overall healthy operation of the global economy to uphold a reliable and effective system. The complete corrosion control engineering life cycle standard system provides the first batch of scientific basis and standards recognized worldwide. Based on the above situation, we hereby propose the need to develop this standard.

The use value of this standard:

1) Ensure that the standard system for corrosion control engineering life cycle is scientific, practical, timely, effective, and complete;

2) Under the guidance of ISO 23123:2020, guide people in various industries and fields to formulate and establish leading standards and standard systems at various levels for each industry and field.

3) Effectively apply the existing achievements and standards of human beings in the field of corrosion control throughout the corrosion control engineering life cycle.