Converting Waste To Resource
  • South African

    Industry Leader

  • Global Certificate

    ISO 9001:2015

  • Eco-Innovative

    Hybrid Cement

  • South African

    Industry Leader

  • Global Certificate

    ISO 9001:2015

  • Eco-Innovative

    Hybrid Cement

Road Variant 1

Road Variant 1



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ARC Innovation Underground Roads

The objective of road stabilisation system is to improve strength, reduce soil plasticity and lower compressibility either by binding the soil particles, waterproofing them or a combination of both.

It involves the application of mechanical processes and chemical additives to achieve these aims.

  • To evaluate a section of road the following needs to be
  • The subgrade for the road
  • Drainage
  • The available material
  • The appropriate road construction methodology

Subgrade

The success or failure of a road is often dependent upon the underlying subgrade the material upon which the pavement structure is built.

The performance of a subgrade relies on the following:

Load bearing capacity

The subgrade must be able to support loads transmitted from the road structure. This load bearing capacity is often affected by degree of compaction, moisture content and soil/ stone type. A subgrade that can support a high amount of loading without excessive deformation is considered beneficial.

Moisture Content

Moisture tends to affect subgrade properties including load bearing capacity, shrinkage and swelling. Moisture content can be influenced by several variables such as drainage, groundwater table elevation, infiltration, or pavement porosity (which can be assisted by cracks in the pavement). Excessively wet subgrades will deform or deteriorate excessively under load.

• Strength and stiffness of subgrade

Subgrade materials are typically characterized by their resistance to deformation under load, which can be either a measure of their strength (the stress needed to break or rupture a material) or stiffness (the relationship between stress and strain in the elastic range or how well a material is able to return to its original shape and size after being stressed).

In general, the more resistant to deformation a subgrade is, the more load it can support before reaching a critical deformation value.

Drainage

One of the main causes of road damage, limitation of longevity and serviceability of road systems, is presence of excess water filling the pores of road materials. It is known that road structures perform better in dry conditions. On occasions where roads have had to be built on wet terrain, drainage structures have been designed to keep the road structures as dry as possible.

Arc Innovations road structures are designed to account for the drainage as these aspects are of particular importance:

• Cross-fall

Water to flow to the lateral ditches

• Grade line

Road surface should be above the seepage of groundwater

• Lateral ditches

To convey water away from the road structure and prevent water table rise to the surface of the road

Poor drainage will lead to:

• Traffic safety issues

Water may accumulate on the road causing ponding. Any accumulated water creates a risk of hydroplaning when the roads have water on them. The wet road surface reduces friction which leads to longer distances needed to brake vehicles.

• Uncontrolled water flows

Small diameter and clogged culverts can cause water to flow towards the road and produce erosion. Water exiting from culverts can similarly cause erosion when it dis- charges directly on to the sidewall.

• Reduced bearing Capacity

Road structures can suffer permanent deformation.

Poor drainage and moisture are the main contributors to permanent deformation on roads. This can result in reduced traffic safety, increased driver health issues, lower bearing capacities, and higher costs for road owners and users.

• Reduced service life and increased costs of road

The most important factor triggering the need for road maintenance is poor quality drainage.

By having the correct drainage conditions during construction and in critical sections of road systems, an increase of the road serviceability by a factor of 1½ – 2 times over the life span of an unmaintained road. Correct drainage and drainage maintenance can lead to major savings for owners of roads.

Available Material

Road Construction Methodologies

Several construction methodologies for roads currently exist:
  • Concrete pavers (Image 1)
  • Asphalt roads (Image 2)
  • Direct-cast Concrete roads (Image 3)
  • Concrete Paver roads (Image 4-5)

Image 1: Concrete paver roads

Image 2: Asphalt roads

Image 3: Direct cast concrete roads

Image 4: Concrete paver

Image 5: Concrete paver roads 

Image 6: Geocell Stabilized roads

Image 7: Geocell Stabilized roads – Belfast Exxar0

The most appropriate method of application in the current environment underground is deemed to be the geocell application using the following methodology.

ARC Innovations’ Road system technology for the underground roads can meet the set requirements while realizing a significant reduction in carbon emissions with a zero-cement application that can obtain compressive strengths of between 1MPa to 100MPa.

The Geocell technology ensures that water moves freely underneath the road (as opposed to large amounts of water collecting on the surface) making it safe for underground mine travel.

The additives improve material properties such as strength, permeability, volume stability and

durability. A spreader truck can be used to apply the required dosage rate or through a plant mix pugmill operation.

By using Activator SA and Activator SM, Arc Innovations can control set times between 10 minutes and several hours based on each individual circumstance.

Compressive and flexural strengths can be controlled to achieve good strengths within 6 hours of casting allowing vehicle movement across its surface.

Application is simple and fast and can increase the speed of road production by up to 200%.

Activator SA TDS (compressed)

Description

Activator SA is a blended material designed to be a primary activator for the zero portland cement Underground Road Systems when used in conjunction with EcoFill.

The Underground road system is used as a wearing course with good drainage to reduce maintenance costs while increasing vehicle and personnel safety.

Typical Uses :

Activator SA is a primary activator with several mineral admixtures reducing the requirement for use of Portland cement.

Further benefits are:

  • Reduction of cementitious systems carbon footprint by up to 97%.
  • Increase flexural
  • Increase Bond and tensile
  • No shrinkage when used in its designed
  • High abrasion resistance when used in conjunction with the Underground Road

 

Limitations :

Activator SA should be applied as a primary activator in cementitious systems.

A secondary activator is required to achieve controlled setting and good compressive and flexural strengths in cementitious systems that utilize PFA in excess of 50% as the primary binder.

pH

12.0 @ 50% dilution

Specific Gravity

1200kg/m³

Colour

White

Odour

None

Passing 40 micron

>80%

Shelf Life :

12 months if correctly stored.

Technical Advice :

The technical department is available to assist with advice on the correct application of the Activator SA.

Activator SM compressed

Description      

Activator SM is a blended material designed to be a secondary activator for the zero portland cement Underground Road Systems when used in conjunction with EcoFill.

The Underground Road system is used as a wearing course with good drainage to reduce maintenance costs while increasing vehicle and personnel safety.

Typical Uses :

Activator SM is a secondary activator with several mineral admixtures reducing the requirement for use of Portland cement.

Further benefits are:

  • Reduction of cementitious systems carbon footprint by up to 97%.
  • Increase flexural
  • Increase Bond and tensile
  • No shrinkage when used in its designed
  • High abrasion resistance when used in conjunction with the Underground Road

Limitations :

Activator SM should be applied as a secondary activator in non-portland cement cementitious systems.

A primary activator is required to achieve controlled setting and good compressive and flexural strengths in non-portland cement cementitious systems.

Physical Properties :

pH

12.0 @ 50% dilution

Specific Gravity

1100kg/m³

Colour

White

Odour

None

Passing 40 micron

>90%

 

Please read MSDS in conjunction with the TDS.

Packaging :

25kgs Bags.

Storage :

Keep in cool containers off the ground.

Shelf Life :

12 months if correctly stored.

Technical Advice :

The technical department is available to assist with advice on the correct application of the Activator SM.

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