The construction of a landscaped yard starts with the demolition. This provides a clean slate for the groundwork to be laid. With all of this demolition, debris can start to pile up. If it is not going to be recycled back into the plans, this debris needs to be removed from the space. These are some of the items resulting in the accumulation of debris.
Old concrete patios are extremely tough to rip up. Yet, they tend to stand in the way during a remodel. Ripping up a concrete patio requires taking it out in sections. Since most of this material can’t be recycled, debris removal in San Marcos, TX is needed. Concrete is a very rough and heavy material to transport. The weight alone makes it difficult to move without causing damage to most vehicles.
Deteriorating retaining walls are another project that can create a lot of debris. In many cases, the retaining walls have been damaged from the stress of water as well as continuous contact with the soil. While some parts might be salvageable, old walls usually just tend to crumble into pieces. Because the integrity of the material has been greatly compromised under the stress, most of it is considered debris rather than recycled building material.
Old patios tend to take up a lot of space in the yard. Along with those old patios are stones no longer useful as part of the decoration. Water damage, staining liquids, as well as wear and tear, can wreak havoc on the yard’s appearance. Because many are chipped or no longer even, it can be difficult to incorporate this stone back into the design. Calling in for debris removal in San Marcos, TX can help with the question of what to do with all of the old stones from the patio.
Getting rid of older structures is required to make the space for new ones. Sometimes, the older structures are no longer capable of supporting the needs of the family. While it necessary to get rid of them, there is always a question of what to do with the leftovers. Contact Loftin Trucking & Materials LLC for help in removing the debris during the demolition phase.
