None of the advertisements match the required criteria.
Per page
Earthworks are a wide category of construction machinery that are used to perform various works related to movement, sliding, setting, deformation and removing materials on construction sites or other areas. Below are some examples of the most commonly used earthworks:
- excavators - were described earlier. This is one of the most popular and most commonly used earthworks. They are used to perform various works, such as excavations, demolition, digging ditches, cleaning the area, etc.
- chargers - these are machines that are used to move materials from one place to another. Unlike excavators that use spoons, chargers have wide spoons for collecting and moving materials. They are especially useful for work with large amounts of material, such as soil, sand, debris or construction waste.
- bulldozers - these are machines that are used to move soil and other materials with vertical pale. The bulldozers are used to equate the terrain, creation of embankments, snow and ice removal, etc.
- fighting - these are machines used to compact soil, asphalt or other road surfaces. Fighting can be equipped with various types of embankments, such as smooth, grooved, with teeth or balls.
- cranes - these are machines used to lift heavy materials and move them in different directions. Cranes can be used to move materials on construction sites, build buildings, install transmission lines, etc.
- Drilling machines - are used to drill holes in the ground. They can be used to drill holes for foundations, well drills, drilling holes for oil and natural gas and in geology.
- Welding machines - these are machines used to combine various structural elements. Can be used for welding pipes, steel structural elements, etc.
- shredders and crushers - these are machines used to crumble and crush various materials, such as concrete, asphalt, stones, wood, etc.
- Purpose and application: Each earthwork machine has been designed for specific tasks, e.g. digging ditches, drilling holes, making excavations, building roads, destroying buildings, etc. Therefore, it is important to determine what tasks will be before buying what tasks will be performed and what machines are best adapted for this.
- Size and capacity: Another important parameter is the size and capacity of the machine. For smaller earthworks, a smaller machine is usually enough, while larger tasks require a larger capacity. It is also worth considering where the machine will work, because in some places, e.g. on narrow streets, you will not be able to use large machines.
- Ease of use: Earthworks also differ in ease of use. In some cases, qualified staff may be necessary to operate the machine. It is worth choosing such devices that are easy to use to minimize errors and improve work safety.
- Performance: Earthworks' work efficiency is one of the most important selection criteria. It is worth choosing machines that offer high power, speed and reliability.
- Costs: Finally, when choosing earthworks machines, you need to take into account the costs associated with the purchase, use and repairs. Choose machines that offer the best price -quality ratio and have a long life to minimize operating costs.
- Atmospheric resistance: Machines for earthworks often work in difficult weather conditions, so it is important that they are resistant to weather conditions such as rain, wind, frost, etc.