Multi-oriented segmental wall blocks, soil reinforcing system, and methods related thereto are disclosed. The wall block may be a concrete masonry block used for constructing retaining walls. The wall block may include a front face; a rear cavity opposing the front 5 face and formed by an inner rear face, an outer rear face on three sides of the inner rear face and spaced apart therefrom, and a shelf defined therein by the inner rear face and the outer rear face; a troughed top face residing between the front face and the outer rear face; a flat bottom face opposing the troughed top face; a first side face residing between the front face and the outer rear face, and between the troughed top face and the flat bottom face; a second side face opposing the first side face; a trough running along the length of the troughed top face

A multi-use block including a block body having at least a first leg. The blocks can be placed in different orientations with respect to each other to form multiple interlocking structures. The block can be a variety of materials, including concrete, and when concrete, used for making walls and columns. Methods of making and methods of use are provided.

The present invention relates to an erosion control apparatus and methods of using and installing the apparatus. The apparatus is constructed to prevent erosion of soil during typical weather conditions and adverse weather events. The apparatus can include a plurality of anchored rolls and soil lifts operative to stabilize the shoreline.

A containing element to be used in geotechnical applications, including: a facing body made of a cementitious material having an inner face configured for contacting the ground and an outer face opposite to the inner face with respect to the body itself, a monolithic reticular structure made of plastic material having a plurality of first and second elements intersecting each other at respective nodes in order to form meshes. The reticular structure includes a first portion integrated and stably embedded in the facing body and a second portion, integral with the first portion, emerging from the inner face of the facing body; the second portion of the reticular structure defines, cooperatively with the inner face of the containing body, a closed loop.

A construction system using core blocks having a horizontal front mounting recess in the front surface defining a core detent lip, and face blocks having a horizontal rear mounting recess defining a face detent lip, and connectors for supporting stacked courses of the face blocks suspended on the front surfaces of stacked courses of core blocks, the connectors having a rear hook and a front hook, wherein the face blocks are each supported by their rear surfaces with at least one connector, by engagement of the front hook with the face detent lip and engagement of the rear hook with the core detent lip.

A multi-use block including a block body having at least a first leg. The blocks can be placed in different orientations with respect to each other to form multiple interlocking structures. The block can be a variety of materials, including concrete, and when concrete, used for making walls and columns. Methods of making and methods of use are provided.

A construction system using core blocks having a horizontal front mounting recess in the front surface defining a core detent lip, and face blocks having a horizontal rear mounting recess defining a face detent lip, and connectors for supporting stacked courses of the face blocks suspended on the front surfaces of stacked courses of core blocks, the connectors having a rear hook and a front hook, wherein the face blocks are each supported by their rear surfaces with at least one connector, by engagement of the front hook with the face detent lip and engagement of the rear hook with the core detent lip.

A construction system using core blocks having a horizontal front mounting recess in the front surface defining a core detent lip, and face blocks having a horizontal rear mounting recess defining a face detent lip, and connectors for supporting stacked courses of the face blocks suspended on the front surfaces of stacked courses of core blocks, the connectors having a rear hook and a front hook, wherein the face blocks are each supported by their rear surfaces with at least one connector, by engagement of the front hook with the face detent lip and engagement of the rear hook with the core detent lip.

The present disclosure generally pertains to blocks for building landscape walls and similar structures, the molds used to make the blocks, and the methods for making the blocks. Such block can be securely coupled to another block. A block can be vertically coupled to another block by coupling the dorsal face of one block to the ventral face of another block. The block can be horizontally coupled by coupling the male side of one block to the female side of another block. A secure, exemplary landscape wall may be created by coupling the blocks both horizontally and vertically to reach a desired height, width, and shape.

In a method for reducing erosion on land where moving water has formed at least one rill or gully a plurality of rock-filled mesh bags are placed at selected spaced apart locations in a rill or gulley. The mesh bags have side walls in which there are openings, each opening having a major diameter of between inches and inches and a minor diameter which is less than or equal to the major diameter. For most uses, the mesh bags contain rocks having a size in which a largest diameter of the rock is between inch and 1 inch, and the mesh bags weigh between 3 pounds and 4 pounds. Water flowing in the gulley will pass through each mesh bag. The mesh bag reduces the flow rate of the moving water. Larger sizes of stones and bags are used for areas of greater flow.