Ground Earth Anchors - the perfect solution for securing your outdoor items with ease

Introducing the Antaeus 3 Pack Ground Earth Anchors - the perfect solution for securing your outdoor items with ease. Unlike traditional twist type anchors that require physical strength to pierce the ground, our ground anchor heads are designed to cut through various surfaces such as grass, dirt, loose gravel, and sand, making installation a breeze. Each package includes 3 earth anchors with a 48 inch long x 1/8" cable and a hold strength of up to 1000 lbs when installed at full depth, ensuring superior stability and preventing unwanted movement or theft.

No holes, concrete or digging is required to install the Antaeus anchors. All you need is a hammer and a 0.5-inch diameter drive steel tool, which is not included. After driving the anchor into the ground, simply remove the drive tool and pull up on the cable to set the toggle. The upward pull rotates the earth anchor into a perpendicular lock position, securely anchoring your item to the ground.

The Antaeus Ground Earth Anchors are versatile and can be used to secure various outdoor items such as sheds, fences, greenhouses, swing sets, erosion control, slope stability, and many more. The anchors are constructed with galvanized steel cable and galvanized carbon steel anchor for maximum life and stability. They are rust-resistant and suitable for all types of soils.

With the Antaeus Ground Earth Anchors, you can save time and energy during installation, while ensuring maximum stability and security for your outdoor items. Order yours today and enjoy the peace of mind that comes with knowing your outdoor items are securely anchored to the ground.

　This paper presents new formulas related to limit equilibrium analysis of the vertical slopes and its applications in slope engineering design. The depth of tension crack and critical slope height are derived from differential equations, which are different from those given by Rankine "state of stress" earth pressure theory. Regardless the difference between the new method presented in this paper and the Rankine theory, their calculation results are almost identical. The results also confirmed that the sliding body slides along the limit angle of the slide. The relationship between critical crack depth and distance from the slope edge, integrating with location of the sliding plane maximum, once can determine the basic (free segment) length of a ground anchor or an earth bar. In addition, the C value could be determined if the both crack depth and distance from the slope edge were measured. The authors also confirmed that active earth pressure equals to the driving force for slide. The new formula reflects physical characterization and reality more closely. In realizing that critical slope height is reduced after a crack is generated within the slope, the authors presented several guidelines for design and construction of vertical slopes.