Rock bonding DK bond method *A list of construction achievements will be provided!
Over 3,900 construction achievements! Introducing our original rock bonding method that withstands massive earthquakes.
The "Rock Adhesion DK Bond Method" is a rockfall prevention technique that uses adhesive material (DK Bond Mortar) to bond unstable rock masses to solid bedrock, thereby achieving stability through integration. Since the development of this method, it has been implemented on a national scale for over 40 years, with more than 3,900 successful projects. It can be applied to steep slopes, high locations, and very unstable boulders, and it possesses seismic performance that can withstand massive earthquakes. We are currently offering a document summarizing our construction achievements. 【Features】 ■ Effective for large boulders and high rock locations ■ Easy to combine with other methods ■ Effective for preserving natural landscapes *For more details, please refer to the PDF document or feel free to contact us.
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【Can be used in such places】 ■ Landscape conservation areas ・In scenic spots and nature parks ■ On steep cliffs or high places ・Where mechanical power cannot be used ■ On very unstable boulders ・Such as boulders on ridges 【Can be used in such situations】 ■ When there is no time ・For emergency measures or first aid ■ When immediate effects are expected ・As preliminary work for disaster recovery, etc. ■ When considering the combination with other rockfall countermeasures ・When addressing both large boulders and small rocks simultaneously *For more details, please refer to the PDF materials or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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The construction method described here prevents loosening of the bedrock due to weathering by sealing crack openings and dispersing concentrated stress in the area, making it highly durable against repeated loads such as earthquakes, and demonstrating a strong rockfall prevention effect. The features of this method include: 1. It can be applied to large rocks and high-altitude rocks that have high potential in mountain slopes and similar areas. 2. It can secure natural rock formations in their current state, and the construction traces harmonize with the landscape, making it particularly effective for use in natural parks and scenic areas. 3. Since there are no alterations to the natural features or new structures required, and the construction equipment is minimal, it can be easily combined with other methods.