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THINK CLIMATE GREEN

The Problem
The Solution
How does SLS Work
Why SLS



CURRENT GLOBAL PROBLEMS RELATING TO UTILITY INFRASTRUCTURE


HIGH COSTS OF QUARRY MATERIAL PROCESSING

The processing of quarry materials used in the ongoing construction and
maintenance of infrastructures such as roads, railways, and other projects
requires substantial financial investment. Often, the required materials are
sourced from natural borrow pits located at significant distances. The
acquisition of such materials is highly expensive, making the cost of
construction prohibitive. This results in the construction of lower-standard
roads that deteriorate rapidly, often surviving only until the next rainfall
season.


UNDERFUNDING AND OUTDATED STANDARDS

The persistent underfunding of critical projects worldwide, coupled with
outdated conventional standards applied in the market today, lacks technological
advancement and innovative design approaches. Current standards delay both
authorities and the private sector in delivering modern, longer-lasting
solutions to communities.

Above all, it is essential to acknowledge that the environment can no longer
endure the relentless strain caused by traditional methods. A “RE-THINK” of less
aggressive material processing is urgently needed to benefit the climate and
build a sustainable future for all living species on our planet.


SUB-STANDARD SOILS FOR DEVELOPMENT

In many countries, housing, industrial, and agricultural land developments are
located in areas where natural soils are considered sub-standard materials. This
presents a significant challenge when constructing roads, railways, airports,
and other infrastructure.


THE PROBLEM

 * Badly constructed roads are unsafe for traffic flow, which in turn, directly
   affects the economic market in delivering their services and goods reliably.
 * It impacts the increase of accident rates resulting in a negative social
   economic outcome in communities.
 * Quality of life in rural communities, is highly dependable on the conditions
   of badly maintained roads.
 * The natural soils in these residential, industrial and commercial
   developments, are of poor quality, unable to support and handle the desired
   loads necessary to provide a safe and secure environment. This is applicable
   to structures, roads, pipelines, rail and so much more, in actual fact, all
   infrastructure that depends on soil quality.
 * Most types of soil consist of fines material (soils portion less than 0.50mm)
   collect and attract large volumes of water. Over time, it causes soil
   structure instability in the wet (mud) and in the dry season the soil
   disintegrates into dust (poor visibility and living conditions). This further
   results in non-accessible roads and walk-ways, not to mention, unsafe.
 * Traditional hydraulic binders, such as cement, lime and others, are not able
   to provide a feasible and economical solution for the stabilization of
   natural soils containing such fines. In addition, the environmental impact
   caused when utilizing such stabilizing products (powder) is irreversible over
   a short-, medium-, and long-term period. It further negatively affects the
   living conditions as well as the wellbeing of everyone. This is becoming less
   acceptable to the communities and authorities worldwide.




DISADVANTAGES OF ALL CONVENTIONAL STABILIZING METHODS

 * High costs.
 * Creates social and suffering/discontent.
 * Health hazard.
 * Delays construction times which increase unnecessary expenses.
 * Has a negative environmental impact


THE SOLUTION


SLS - SOIL LIQUID STABILIZER


HIGH COSTS OF QUARRY MATERIAL PROCESSING

The processing of quarry materials used in the ongoing construction and
maintenance of infrastructures such as roads, railways, and other projects
requires substantial financial investment. Often, the required materials are
sourced from natural borrow pits located at significant distances. The
acquisition of such materials is highly expensive, making the cost of
construction prohibitive. This results in the construction of lower-standard
roads that deteriorate rapidly, often surviving only until the next rainfall
season.


UNDERFUNDING AND OUTDATED STANDARDS

The persistent underfunding of critical projects worldwide, coupled with
outdated conventional standards applied in the market today, lacks technological
advancement and innovative design approaches. Current standards delay both
authorities and the private sector in delivering modern, longer-lasting
solutions to communities.

Above all, it is essential to acknowledge that the environment can no longer
endure the relentless strain caused by traditional methods. A “RE-THINK” of less
aggressive material processing is urgently needed to benefit the climate and
build a sustainable future for all living species on our planet.


SUB-STANDARD SOILS FOR DEVELOPMENT

In many countries, housing, industrial, and agricultural land developments are
located in areas where natural soils are considered sub-standard materials. This
presents a significant challenge when constructing roads, railways, airports,
and other infrastructure.


HOW DOES SLS WORK ?

SLS is a surface tension relief active agent that displaces most of the adsorbed
water trapped in the void between the soil particles. In conjunction it creates
an electro-chemical effect during compaction that orientates the soil particles
and adjusts to fit the particles to “interlock” within the soil strata. This
results in a permanent load bearing capacity.




WHY SLS?


1.

SLS – Soil Liquid Stabilizer, is utilised independently for the stabilization of
natural in-situ soils without any additives or blending of materials.

No special equipment is required, as the construction with SLS adopts
traditional construction method. Contractor/s will find it much simpler/faster
to use. SLS has the benefits of low cost, excellent performance, soil
strengthening and non-toxic climate friendly.

SLS can be safely applied to any construction project, ranging from: Subgrade
and insitu soils (any roadworks), water conservancy construction (dams),
highways, railways, airports, forest roads, wind/photovoltaic power plants,
parking lots, housing and factory floors, rubble recycling, cement brick making
and other applications.


2.

SLS makes the professional engineers and authorities less dependable on the
quarry or borrow pit materials, at a fraction of its price. Engineers can easily
adopt a lenient approach to resolve many problems relating to soils and water
(soil stabilization). At the same time, it enables the
engineers and the authorities to become proactive in reducing the negative
impact on OUR environment.


3.

SLS provides healthier and safe living conditions for all.


4.

ADVANTAGES OF SLS

User friendly

Climate friendly

Non-hazardous

Non-toxic

Non-flammable

Non-corrosive

 Water based.

 Economical and readily available

 Optimization of at least 30% of costs of construction

Optimization of production on site

 Extended life span of infrastructure.

Minimize erosion / wash away of infrastructure.

Minimize dust pollution.

No specialized equipment required.

 Immediate traffic flow – no access delays created.

Protection of government and private sector investments.

Technical support availability 24/7


MAKING THE WORLD GREENER WITH SLS - YES, WE CAN!!

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