Up to 800 T/H Output, Keep Projects Moving.
±1% Accuracy, Consistent Strength Every Kilometer.
From Clay to Wet Soil, One Plant Handles It All.
Struggling with weak soil, uneven road bases, or rising material costs? Delays, cracks, and inconsistent mixing can slow construction and increase your budget. A stabilized soil mixing plant equipment turns local soil into uniform, high-strength base material, keeping projects moving smoothly and reliably. We provide customized stabilized soil mixing solutions designed to match your site conditions, project scale, and local standards-helping you build reliable foundations while keeping your project on schedule..
But for most contractors and project owners, the real concern is not just output—it is whether the road can survive the rainy season and heavy traffic. Cracks, settlement, and frequent repairs can quickly wipe out any cost advantage. That’s why understanding what stabilized soil is, and why it matters, is the first step toward building durable roads.
For many road projects, the biggest risk is not the asphalt or concrete surface, but the ground underneath it. If the base layer cannot carry repeated loads and resist moisture, surface damage can appear within 6–12 months, even when premium paving materials are used. This is where stabilized soil becomes a practical and proven solution for building long-lasting road foundations.
In practical terms, stabilized soil turns weak subgrade into a structural layer that can reliably support traffic loads.
When such soil is used directly, roads are more likely to experience:
By stabilizing the soil, CBR values can typically increase to 10%–20% or higher, greatly improving base stability and extending pavement service life.
This makes it especially suitable for rural road upgrades, industrial access roads, and regional infrastructure programs where cost control and speed are both critical.
Modular stabilized soil batching plants solve this through:
The pugmill plant for road construction ensures that every truckload delivered to the site meets the same performance standard.
It is not just a material choice, but a strategic decision for building roads that last longer and perform better under real traffic conditions.
Knowing the importance of stabilized soil is only the first step—the next challenge is choosing the right way to produce it on site. Project scale, construction schedule, and site conditions all affect which type of pugmill mixing plant works best. To help you make the right choice, stabilized soil mixing stations are mainly available in mobile and stationary configurations.
Stabilized soil mixing plants are mainly designed in two configurations: mobile and stationary, to suit different construction scenarios. Projects that move frequently along the road line require fast relocation and flexible setup, while large-scale projects need continuous, high-output production at a fixed location. Choosing the right soil stabilization mixing plant type helps reduce material transport distance, improve base production efficiency, and keep the construction schedule on track.
Model: WCB300WCB500WCB600WCB800
Production Capacity: 300–800 t/h
Total Power: 90–190 kW
Binder Dosing Accuracy: ±1%
Aggregate Measurement Accuracy: ±2%
Mixing Type: Double-shaft continuous forced mixing
Aggregate Hopper Capacity: 48–60 m³ (4–5 bins)
Application: Highway Base & Subbase, Port & Dock Pavements, Airport Runway Foundations, Industrial Yard & Logistics Parks
Features: Even mixing, Stable strength control, High continuous output, Quick modular setup, Multi-material compatible, Easy automatic operation, Fault alarm protection, Heavy-duty durability
Model: YWCB300YWCB500YWCB600
Production Capacity: 200–500t/h(Gravel), 150–400t/h(Lime Soil)
Mixing Method: Double-shaft continuous forced mixing
Dosing Accuracy: Powder ±1% Aggregate ±1%
Aggregate Hopper: 6–10 m³
Water Tank: 5–10 m³
Total Power: 70–130 kW
Applications: Rural roads road rehabilitation temporary base production moving construction sites emergency repair projects
Features: Quick relocation compact structure stable mixing quality accurate strength control continuous mobile production easy transport heavy-duty for frequent moves.
Now that you know the types of modular stabilized soil mixing plants, let’s look at what really matters on site—capacity, accuracy, and operating stability. The technical specifications below show how each type performs in daily production, helping you quickly choose the right lime or cement soil mixing plant for your project scale and working conditions.
Buying a stabilized soil mixing plant for road construction is a long-term investment, and choosing the wrong model can quickly increase project risk and operating cost. By comparing technical specifications across multiple models, you can quickly identify the capacity and configuration that best match your construction scale and material requirements. Let’s view these soil stabilization plant specifications as below.
| Parameter model | WCB300 | WCB400 | WCB500 | WCB600 | WCB700 | WCB800 |
|---|---|---|---|---|---|---|
| Maximum production capacity(t/h) | 300 | 400 | 500 | 600 | 700 | 800 |
| Mixing form | Double horizontal axis continuous forced type | |||||
| Powder metering accuracy(%) | ±1 | |||||
| Aggregate measurement accuracy(%) | ±2 | |||||
| Powder measurement method | Helix electronic scale | |||||
| Aggregate measurement method | Computer belt scale | |||||
| Volume of aggregate hopper(m³) | 12 m³*4 | 12 m³*4 | 12 m³*4 | 12 m³*5 | 12 m³*5 | 12 m³*5 |
| Powder bin capacity(t) | 100 | 100 | 100 | 100*2 | 100*2 | 100*2 |
| Tank volume(m³) | 8 | 8 | 8 | 8 | 8 | 8 |
| Volume of finished product warehouse(m³) | 10 | 10 | 10 | 10 | 10 | 10 |
| Whole machine power(kw) | 90 | 110 | 130 | 150 | 165 | 190 |
| Parameter | YWCB300 | YWCB400 | YWCB400 | YWCB500 | |
|---|---|---|---|---|---|
| Maximum capacity(t/h) | Gravel | 200 | 300 | 400 | 500 |
| Lime soil | 150 | 200 | 300 | 400 | |
| Mixing method | Double horizontal shaft forced continuous mixing | ||||
| Powder measurement precision (%) | ±1 | ±1 | ±1 | ±1 | |
| Measurement precision of aggregate (%) | ±1 | ±1 | ±1 | ±1 | |
| Aggregate metering modes | Screw electronic scale | ||||
| Powder measurement method | Computer control belt scale | ||||
| Aggregate hopper volume(m3/a) | 6 | 8 | 8 | 10 | |
| Powder bunker capacity(t/a) | 100 | 100 | 100 | 100 | |
| Water tank volume(m3) | 5 | 8 | 8 | 10 | |
| Finished product warehouse volume(m3) | 8 | 10 | 10 | 10 | |
| Total power(Kw) | 70 | 90 | 110 | 130 | |
With projects across Asia, the Middle East, South America, and Oceania, our continuous pugmill mixer plants are used in a wide range of road and foundation construction scenarios. Whether in Australia, Argentina, Paraguay, Qatar, or other regions, each project demonstrates how soil cement mixing plant configurations are adapted to local materials, site layouts, and production targets. As a reliable stabilized soil plant manufacturer, we are helping the projects improve the road quality!
After seeing stabilized soil plants in action worldwide, it’s clear how they fit into a full road construction workflow. Combining stabilized soil plants, asphalt plants, and asphalt pavers creates a seamless system for precise base preparation, continuous paving, and efficient, durable roads.
How can contractors deliver high-quality, durable roads efficiently while minimizing material waste, rework, and downtime? Integrated asphalt road construction solutions combine stabilized soil mixing plants, asphalt plants, and asphalt pavers into a coordinated workflow. By linking precise base production with continuous asphalt paving, this system ensures consistent road quality, faster project completion, and long-lasting pavements capable of withstanding heavy traffic and extreme weather.
Stabilized soil plants mix soil, aggregates, binders, and water with ±1% binder accuracy and ±2% aggregate precision, producing a load-bearing base that resists settlement, cracking, and water damage. A 300TPH plant can supply 5–30 km of road per day, supporting uninterrupted paving operations.
Soil mixing plant output is coordinated with asphalt plant capacity. For example, a 300TPH stabilized soil plant pairs efficiently with 80–120TPH asphalt plants, maintaining continuous paving without bottlenecks on highways, urban roads, or airport projects.
After base compaction, asphalt pavers lay the surface in continuous passes. Stable and uniform base quality reduces rework by up to 15%, accelerates project timelines, and ensures smooth, durable pavements that meet long-term performance standards.
Transport, mixing, and paving are synchronized across the construction site, allowing efficient management of long road sections or airport runways, minimizing downtime, reducing operational risks, and keeping projects on schedule and within budget.
Now that you see how intgrated road construction solutions improve your project efficiency, the next question is how this base material is actually produced on site. Let’s take a closer look at how raw soil, aggregates, binders, and water are transformed into ready-to-lay stabilized base in a continuous mixing process.
A stabilized soil mixing plant works on a continuous mixing principle, where aggregates, binder, and water are fed, measured, and blended in one uninterrupted process. This design ensures stable output and consistent material quality for road base construction. The following steps show how each part of the system works together to achieve precise and continuous production.
Continuous supply keeps pavers and rollers moving without waiting for material. Daily output becomes predictable. Base layers stay consistent in strength and gradation. For long road sections, this directly reduces rework, shortens construction cycles, and improves overall pavement performance. Next, let’s see the soil cement plant on-site Youtube video in the following!
Take a look at this 600TPH stabilized soil mixing plant on a real job site. Soil, cement, and aggregates flow smoothly, mix evenly, and come out ready to pave—non-stop production that keeps long road sections moving without delays.
You’ve seen the 600TPH pugmill plant in action and how it delivers continuous, uniform base material on a real construction site. But you may still have questions—about production capacity, mixing accuracy, setup, or maintenance. The FAQs below answer the most common concerns from contractors and project managers worldwide.
Every successful road starts with a stable foundation. Whether you need high output for long highways or flexible solutions for urban projects, we provide customized stabilized soil mixing plant solutions to match your site, materials, and schedule. Talk to our engineers today and get a practical proposal that keeps your project moving and your costs under control. Get to know the stabilized soil mixing plant price at right!