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Shock resistance and stability
The effectiveness of welded gabions as a civil engineering structure can be evaluated by their impact resistance and stability. The impact resistance index measures the performance of welded gabions in the face of natural disasters, floods or impact forces. The stability index can evaluate the anti-tilting and anti-sliding ability of the welded gabion under different geological conditions. Through a comprehensive evaluation of these indicators, the effectiveness of welded gabions in providing structural stability and impact resistance can be determined.

Soil retention and protection
Welded gabions are widely used in the field of soil conservation and protection, and their effectiveness can be measured by evaluating their soil retention and protection capabilities. The Soil Conservation Index can evaluate the effectiveness of welded gabions in preventing soil erosion and soil loss. The protective capacity index measures the performance of welded gabions in preventing rockslides, earth cave-ins, and river bank erosion. Taking these capabilities together allows the assessment of the effectiveness of welded gabions in soil retention and protection.

Sustainability and Durability
The effectiveness of welded gabions can also be assessed by their sustainability and durability. Sustainability indicators can evaluate the performance of welded gabions in terms of environmental friendliness and resource utilization. Durability indicators can evaluate the durability of welded gabions under long-term use and exposure to different climatic conditions. By examining these indicators, the effectiveness of welded gabions in terms of sustainability and durability can be determined to support their long-term use and maintenance.

Cost-effectiveness and engineering implementation
Finally, the effectiveness of welded gabions can also be assessed by their cost-effectiveness and engineering implementation. The cost-benefit indicator assesses whether welded gabions are economically justifiable while providing the desired functionality and performance. Engineering performance indicators can assess the feasibility and efficiency of welded gabions in terms of design, installation and maintenance. By comprehensively considering these indicators, the effectiveness of welded gabion in terms of cost-effectiveness and engineering implementation can be evaluated to determine its feasibility in practical engineering applications.

In summary, evaluating the effectiveness of welded gabions requires a comprehensive consideration of impact resistance and stability, soil retention and protection capabilities, sustainability and durability, and cost-effectiveness and engineering implementation. Through the evaluation and comprehensive analysis of these indicators, the performance and feasibility of the welded gabion can be fully evaluated, and an important basis for relevant engineering decisions can be provided.