Are you processing hard stone or mineral ore that need finer particle sizes? In many Indonesian mining and cement projects, crushing alone cannot meet final product requirements. A ball mill machine is often the essential grinding stage transforming coarse material into consistent powder or finely ground material used in cement, chemical, silicate, glass ceramic, and non-ferrous metal industries. At ANDAMINE, we provide ball mill solutions adapted to Indonesian project conditions, from remote mining sites to integrated processing plants.
How many ball mill types are there? In Indonesia, ball mills are widely used in mining beneficiation and cement production, where different materials and project scales require different grinding solutions. From mines in Sulawesi and Kalimantan to cement plants in Java, achieving consistent fine particle sizes is a common challenge. Based on local application experience, types of andamine grinding milling equipment used in Indonesia are mainly classified by grinding method and discharge type.
| Ball Mill Type | Structural Features | Typical Materials | Key Advantages | Typical Applications |
|---|---|---|---|---|
| Dry Ball Mill | Dry grinding without water; air flow or fan-assisted discharge; horizontal rotating cylinder; simple feeding and discharging system | Cement clinker, limestone, coal, fly ash and other building materials | No water consumption; easy maintenance; suitable for areas with limited water resources | Cement plants, building material processing plants, industrial park projects |
| Wet Ball Mill | Grinding with water inside the cylinder; high steel ball loading; overflow or grate discharge structure | Gold ore, copper ore, iron ore, nickel ore and other metallic minerals | Excellent fine grinding performance; ideal for mineral beneficiation; compatible with flotation and magnetic separation processes | Mining companies and beneficiation plants, especially in Sulawesi, Kalimantan and Papua |
| Overflow Ball Mill | Natural overflow discharge; uniform steel ball distribution; simple structure; easy installation and maintenance | Secondary grinding; fine grinding applications | High fineness of final product; stable operation; easy to operate | Small to medium-sized mines requiring stable and consistent grinding performance |
| Grate Type Ball Mill | Grate plate at the discharge end for forced discharge; layered steel ball arrangement; high throughput design | High-capacity ore grinding lines | High processing capacity; suitable for continuous and large-scale production | Large-scale nickel and iron ore projects; state-owned or foreign-invested mining operations |
Processing Capacity: 1-100t/h
Feeding Size: ≤25mm
Output Size: 0.047-0.5mm
Raw Materials: Gold ore, copper ore, iron ore, nickel ore, limestone, cement clinker, coal, fly ash, quartz, feldspar
Applicable Industries: Mining and mineral processing, cement and building materials, metallurgy, chemical industry
Advantages: With rolling bearings and robust cylinder design, tumbling mill runs smoothly with high efficiency, reduces energy consumption by 10–20%, increases output by 10–20%.
Processing Capacity: 20–386 t/h
Feeding Size: ≤25mm
Output Size: 0.074–0.89 mm
Raw Materials: Mining, cement, limestone, gold, nickel, and other local ores and building materials.
Applicable Industries: Ideal for mineral processing, cement grinding, and fine powder applications in local projects.
Ball Mill Advantages: Optimized grinding and classification in a single line, ensuring uniform powder quality, low maintenance, and dust-controlled performance.
Now that you have an overview of the main types of tumbling mills commonly used in Indonesia, it’s time to explore their detailed technical specifications. The following table provides key parameters such as processing capacity, feeding and output sizes, and applicable materials, helping you quickly find the right ball and mill for your project.
Looking for a tumbling mill that fits your mining or construction project in Indonesia? As one of excellent ball mill manufacturers, we show the detailed technical specifications below to compare processing capacity, feeding size, and output size, —making it easier to choose the most efficient solution for your local site conditions.
| Model | Rotate Speed (r/min) | Grinding Media Weight (T) | Feed Size (mm) | Discharge Size (mm) | Capacity (t/h) | Motor Power (kW) | Weight (T) |
|---|---|---|---|---|---|---|---|
| Φ900×1800 | 36 | 1.5 | ≦20 | 0.075-0.89 | 0.65-2 | 18.5 | 5.5 |
| Φ900×3000 | 38 | 2.7 | ≦20 | 0.075-0.89 | 1.1-3.5 | 22 | 6.7 |
| Φ1200×2400 | 36 | 3 | ≦25 | 0.075-0.6 | 1.5-4.8 | 30 | 12 |
| Φ1200×3000 | 36 | 3.5 | ≦25 | 0.074-0.4 | 1.6-5 | 37 | 12.8 |
| Φ1500×3000 | 32.4 | 7.5 | ≦25 | 0.074-0.4 | 2-5 | 75 | 16.8 |
| Φ1500×4500 | 29.7 | 11 | ≦25 | 0.074-0.4 | 3-6 | 110 | 21 |
| Φ1830×4500 | 25.4 | 15 | ≦25 | 0.074-0.4 | 4.5-12 | 155 | 35.5 |
| Φ1830×7000 | 24.1 | 23 | ≦25 | 0.074-0.4 | 7.5-17 | 245 | 43.8 |
| Φ2100×3000 | 23.7 | 15 | ≦25 | 0.074-0.4 | 6.5-36 | 155 | 34.8 |
| Φ2100×4500 | 23.7 | 24 | ≦25 | 0.074-0.4 | 8-43 | 245 | 42 |
| Φ2200×4500 | 21.5 | 27 | ≦25 | 0.074-0.4 | 9-45 | 280 | 51.8 |
| Φ2200×7500 | 21.7 | 35 | ≦25 | 0.074-0.4 | 15-30 | 380 | 64.8 |
| Φ2400×3000 | 21 | 23 | ≦25 | 0.074-0.4 | 7-50 | 245 | 58 |
| Φ2400×4500 | 21 | 30 | ≦25 | 0.074-0.4 | 8.5-60 | 320 | 69 |
| Φ2700×4500 | 20.7 | 48 | ≦25 | 0.074-0.4 | 12-90 | 480 | 102 |
| Φ3200×4500 | 18 | 65 | ≦25 | 0.074-0.4 | 25-120 | 630 | 137 |
| Φ3600×4500 | 17 | 90 | ≦25 | 0.074-0.4 | 25-140 | 850 | 158 |
| Φ3600×6000 | 17 | 110 | ≦25 | 0.074-0.4 | 25-160 | 1250 | 175 |
| Φ4000×6000 | 16.9 | 146 | ≦25 | 0.074-0.4 | 65-248 | 1600 | 218 |
| Φ4500×6400 | 15.6 | 172 | ≦25 | 0.074-0.4 | 54-306 | 2000 | 280 |
Having seen the detailed technical specifications of our ball mill plants—covering capacity, feed and output size, and suitable materials—you might be wondering which model best fits your Indonesian project. The next section guides you through key selection factors, and practical recommendations, helping you choose the right ball mill for sale in Indonesia.
Not sure which tumbling mill to choose for your Indonesian mining or construction project? Consider material type, capacity, feed size, and output fineness. The table below summarizes key selection factors and quantitative references to help you pick the most suitable industrial ball mill for Sulawesi, Kalimantan, Java, or Sumatra projects.
| Selection Dimension | Key Factors | Quantitative Reference | Recommended Type | Indonesian Context | Notes / Application | Maintenance & Reliability | ROI / Cost Consideration |
|---|---|---|---|---|---|---|---|
| Material Characteristics | Hardness, abrasiveness, moisture content | Hardness: 3–8 Mohs; Moisture ≤10% (dry mills) | Wet Ball Mill for metallic ores; Dry Ball Mill for building materials | Gold, nickel, copper ores in Sulawesi/Kalimantan/Papua; cement/limestone in Java/Sumatra | Wet mills integrate with flotation/magnetic separation; dry mills with cement lines | Steel balls replaceable every 6–12 months; cylinder inspection 500–1000 hrs | Ensures consistent product quality; reduces processing loss |
| Production Capacity | Daily/weekly tonnage, project scale | Small: 1–10 t/h; Medium: 10–50 t/h; Large: 50–100 t/h | Match mill type to project scale | Small mines, pilot projects, industrial parks | Select cylinder diameter & length to match output | Minimal downtime with rolling bearings | Higher capacity reduces per-ton cost |
| Grinding Fineness & Feed Size | Max feed size, desired output fineness | Feeding ≤25 mm; Output 0.047–0.5 mm | Adjust cylinder and ball size | Suitable for ores and building materials across Indonesia | Fine grinding for mineral beneficiation or cement | Easy to adjust; long service life | Achieve target fineness efficiently, lowering regrind cost |
| Energy Efficiency | Bearing type, electricity consumption | Rolling bearings save 10–20% energy | Prefer rolling bearing mills | High electricity price regions in Indonesia | Energy savings critical for continuous operation | Bearings require less maintenance | Reduced energy cost, improves ROI |
| Production Efficiency | Throughput, continuous operation | 24/7 operation; production increase 10–20% with same power | Rolling bearing mills | Mining and construction sites nationwide | Supports batch or continuous process | Smooth operation, low vibration | Higher output reduces overall project duration |
| Local Site Conditions | Humidity, temperature, dust | Tropical climate; sealed negative-pressure operation | Sealed mills | Humid, rainy, coastal, or remote Indonesian sites | Dust control improves safety & compliance | Robust frame resists corrosion | Reduces maintenance downtime and environmental penalties |
| Maintenance & Reliability | Ease of inspection, replacement of wear parts | Maintenance interval: 500–1000 hrs; Steel ball life: 6–12 months | Robust structure | Remote mines & construction sites | Standardized parts reduce downtime | Easy to operate, long-term continuous run | Lower maintenance cost improves overall ROI |
| Budget & ROI | Initial investment, operating cost | Payback 1–3 years depending on scale & efficiency | Choose energy-efficient & appropriate capacity | Small to large-scale Indonesian projects | Balance capex vs opex | High reliability reduces replacement cost | Optimized ROI, better project economics |
Understanding how to choose the right grinding ball mill is just the first step. Next, see our ball mill for grinding in action across Indonesia, delivering reliable performance and measurable results for mining and construction projects.
Wondering if Andamine high energy ball mills really perform in Indonesia? From nickel mines in Sulawesi to cement plants in Java, our grinding mill has proven reliable, efficient, and easy to operate under local conditions. Scroll through real local projects and see the results for yourself.
These successful projects across Indonesia show what our ball and mills can achieve in real operations. To better understand why they deliver such stable and efficient results, let’s take a closer look at the working principle of a ball mill grinding plant.
How ball mills work? A ball mill machine works by feeding material into a rotating cylinder filled with steel balls. As the drum rotates, the balls are lifted and then fall under gravity, crushing and grinding the material through impact and friction. This simple yet powerful mechanism ensures continuous fine grinding for mining, cement, and construction materials. Watch the working process in action in the Youtube video below.
Understanding the working principle explains how materials are ground inside a ball mixer machine. The next step is to see why this process matters in practice. In Indonesia’s construction and mining industries, tumbling mills are not only machines—they are key assets that support output quality, efficiency, and long-term investment value.
In Indonesia, rapid construction growth and a booming mining sector are driving unprecedented demand for finely ground materials. From cement plants in Java to nickel and gold operations in Sulawesi and Kalimantan, grinding ball mill crusher outputs are essential for high-quality production. Understanding how these materials feed into different industries highlights why investing in a ball grinding mill today is both practical and strategic.
👉Tumbling mill grinding machine outputs such as fine limestone and clinker powder are essential feedstock for Indonesia’s cement industry.
👉 Fine ore particles from grinding ball mill equipment directly supports mineral separation and metal extraction processes.
👉 Ground materials are foundational inputs in precast, plaster, mortar, and industrial filler products.
If you are working on a cement or mining project in Indonesia, you may be wondering how a ball grinding mill is actually used on site—how fine it grinds, how fast it runs, and how it is operated in daily production. This FAQ answers those real, practical questions based on common project conditions in Indonesia.
Across Indonesia—from cement plants in Java to gold and nickel projects in Sulawesi and Kalimantan—our grinding mills have proven stable, efficient, and reliable. As one of ball mill suppliers in Indonesia, we are waiting for your contacting us today for a tailored solution and free quote about harga ball mill, and let us help you select the right jual ball mill for your project.