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PBM-8C Low Temp Planetary Ball Mill 150kg Compact

PBM-8C Low Temp Planetary Ball Mill 150kg Compact

$3,225.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

PBM-8C Laboratory-Grade Low Temp Planetary Ball Mill, 150kg capacity, compact design. Ideal for nanomaterial and powder preparation. Order now.

SKU: AFPBM8C
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Description

PBM-8C COMPACT VERTICAL SEMI-CIRCULAR PLANETARY BALL MILL 1.5KW

LABORATORY GRADE EQUIPMENT

Product Introduction
Planetary ball mill is a high-efficiency and precise laboratory-grade powder preparation equipment, mainly used for material crushing, mixing, dispersion and nanomaterial preparation. Its core structure consists of a planetary disk, ball milling jars (semi-circular or circular), grinding balls, drive system and safety devices. Through the composite motion of revolution and rotation of planetary wheels, combined with high-energy impact and friction, the equipment achieves efficient grinding of materials. The semi-circular ball milling jar design further optimizes space utilization and grinding efficiency, suitable for small-batch and high-precision experimental requirements. The listed price is for the main machine only; grinding jars and grinding balls must be ordered separately.

Operating Principle of Planetary Ball Mill
The main disk of the planetary ball mill is equipped with four ball milling jars. When the motor drives the main disk to rotate, the ball milling jars revolve around the main disk shaft and rotate simultaneously driven by the planetary mechanism of the main disk, performing planetary motion. The grinding balls inside the jars rub and collide with each other during high-speed planetary motion, enabling efficient grinding and sample mixing.
Vertical semi-circular planetary ball mill is a device for mixing, fine grinding, small-sample preparation, new product development and small-batch production of high-tech materials. Our planetary ball mill features compact size, complete functions, high efficiency and low noise. It is an ideal powder equipment for research institutes, universities and enterprise laboratories to obtain research samples (four samples can be obtained simultaneously in each experiment). Equipped with vacuum ball milling jars, it can grind samples in a vacuum state.

Application Scope
Vertical semi-circular planetary ball mills are widely used in geology, mineral resources, metallurgy, electronics, building materials, ceramics, chemical industry, light industry, medicine, environmental protection and other sectors. They are applicable to the production of electronic ceramics, structural ceramics, magnetic materials, lithium cobalt oxide, lithium manganate, catalysts, fluorescent powders, long afterglow luminescent powders, rare earth polishing powders, electronic glass powders, fuel cells, zinc oxide varistors, piezoelectric ceramics, nanomaterials, wafer ceramic capacitors, MLCC, thermistors (PTC, NTC), dielectric ceramics, alumina ceramics, zirconia ceramics, zinc oxide powder, cobalt oxide powder, Ni-Zn ferrites, Mn-Zn ferrites and other products.

Product Usage
  • Materials Science Research: Preparation of nanomaterials, composite materials and ultra-fine metal/non-metal powders.
  • Pharmaceutical Field: Mixing of pharmaceutical ingredients, cell disruption and biological sample pretreatment.
  • Ceramic & Glass Industry: Uniform dispersion of raw materials and preparation of ceramic slurries such as kaolin.
  • Electronics & Metallurgy: Fine processing of metal powders, semiconductor materials and magnetic materials.
  • Environmental Protection & Agriculture: Analysis of soil/geological samples, waste treatment and agricultural product quality testing.

Product Features
  • High Efficiency: The planetary motion mode (revolution + rotation) provides high energy density, significantly improving grinding efficiency compared with traditional equipment.
  • Uniformity: Three-dimensional motion trajectory ensures thorough mixing of materials and uniform particle size distribution (down to 0.1 micron).
  • Versatility: Supports dry/wet grinding and is compatible with ball milling jars of various materials (e.g., stainless steel, ceramics, polyurethane).
  • Safety & Reliability: Equipped with safety switches, overload protection and low-noise design, complying with laboratory safety standards.
  • Intelligent Control: Variable frequency speed regulation, timed forward and reverse rotation, LED display and programmed operation to improve experimental repeatability.
For vertical semi-circular planetary ball mills: The equipment shell adopts semi-circular design elements, stamped and formed by high-precision molds, elegant and exquisite, high-end and stable; machined parts are processed by CNC technology, the planetary disk is integrally cast, and the transmission gears are precision gears made of special materials, ensuring stable and quiet operation at high speed; the grinding jar clamping device is easy to operate, safe and reliable.

Core Technical Advantages
  • Full series adopts variable frequency speed regulation technology for stepless speed change.
  • Supports forward and reverse alternating operation for more uniform grinding.
  • Precise setting of running time up to 9999 minutes.
  • Precise coordination of revolution and rotation speeds to ensure optimal grinding effect.

Safety Protection Design
  • All models comply with noise control standards.
  • Motor overload protection device.
  • Emergency stop function.
  • Wide voltage adaptation range and strong stability.

Application Coverage
  • Meets full-range demands from small-batch laboratory use to industrial production.
  • Compatible with ball milling jars of various specifications, including vacuum ball milling jars.
  • Suitable for materials science, chemistry, pharmacy and other fields.

Technical Parameters
No. Model Style Grinding Jar Rotation Speed (rpm) Grinding Jar Holder Inner Diameter (mm) Motor Power Grinding Jar Revolution Diameter (mm) Overall Dimensions (mm) Net Weight (kg)
1 PBM-0.2 Micro Type 0~1160 50 90W Φ111 420×260×310 25
2 PBM-0.2S Micro Glove Box Type 0~1160 50 90W Φ111 Main Unit 390×220×270
Control Box 200×180×240		 29
3 PBM-0.4A Semi-Circular Type 0~870 80 250W Φ140 530×300×360 34
4 PBM-6 0~670 134 0.75KW Φ234 760×470×580 100
5 PBM-4A Semi-Circular Type 0~670 134 0.75KW Φ234 760×470×600 85
6 PBM-(8-12) 0~580 162 1.5KW Φ275 900×600×640 168
7 PBM-(8-12)A Semi-Circular Type 0~580 162 1.5KW Φ275 880×560×642 150
8 PBM-16A Semi-Circular Type 0~510 182 3KW Φ320 950×600×710 205
9 PBM-20 0~430 222 4KW Φ385 1200×790×930 392
10 PBM-40 0~390 250 5.5KW Φ430 1400×880×1070 656
11 PBM-60 0~260 (1:1.5) 275 7.5KW Φ490 1600×1070×1250 950
12 PBM-100 0~240 (1:1.5) 326 11KW Φ578 1750×1140×1330 1300
13 PBM-200 0~215 460 22KW Φ738 2670×1600×2804 2725

Working Principle
  • Planetary Motion Mechanism: The turntable drives the ball milling jars to revolve around the main shaft, while the jars rotate at high speed, forming a composite centrifugal force field.
  • Grinding Effect: Grinding balls inside the jar collide with materials at high speed under centrifugal force, generating shearing, impact and friction forces to achieve crushing and mixing.
  • Parameter Control: Precisely control finished product particle size by adjusting rotation speed (e.g. 200-800 rpm), grinding time and ball-to-material ratio.

Selection Guide
  • Sample Properties: Wear-resistant jars (e.g., tungsten carbide) are required for hard materials; low-temperature grinding mode is optional for brittle or heat-sensitive materials.
  • Processing Capacity: Choose single-jar or four-jar configuration according to experimental needs, with loading capacity not exceeding 2/3 of the jar volume.
  • Grinding Objective: Nanoscale grinding requires high rotation speed (≥500 rpm) and small-sized grinding balls (e.g., zirconia balls).
  • Equipment Parameters: Focus on motor power (e.g., 0.75-2.2 kW), maximum centrifugal acceleration and timing function.
  • Safety & Maintenance: Prioritize models with automatic shutdown, fault alarm and easy disassembly design to reduce maintenance costs.

Standard Configuration
Item Description
Main grinding unit 1 pc
Grinding jars 4 pcs of 2 L grinding jars (Order Separately)

Available Materials: Al₂O₃ PU PTFE Ceramic SS Nylon
Grinding balls 1 set of grinding balls (Order Separately)

Available Materials: WC-Co Al₂O₃ PU-Fe Agate YSZ 304SS

Supporting Products Supply
Grinding Balls: We also supply various grinding balls: stainless steel balls, zirconia balls, alumina balls, PU balls, carbon steel balls, tungsten balls, agate balls, cemented carbide balls, silicon nitride balls, high wear-resistant steel balls, manganese steel balls, nylon balls, cemented carbide, glass and other special metal materials.

Ball Milling Jars: We also provide ball milling jars of various materials: agate, alumina corundum ceramics, zirconia ceramics, silicon nitride ceramics, silicon carbide ceramics, stainless steel, wear-resistant steel, manganese steel, nylon, polyurethane, cemented carbide, crystal glass, etc.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official quotations.
EMAIL: inquiry@atomfair.com

Store the planetary ball mill in a dry, temperature-controlled environment to prevent corrosion and electrical damage. Ensure the equipment is grounded and safety interlocks are functional before each use.

  • Electrical Safety: Verify that the main power supply meets the equipment's voltage and current ratings and that an emergency stop is accessible.
  • Vacuum Jar Seal Integrity: Inspect O-rings and sealing surfaces of vacuum ball milling jars prior to operation to ensure leak-tight conditions.
  • Overload Protection: Confirm that overload protection mechanisms are active and that the mill is not operated beyond its rated capacity.
  • Noise Exposure: Use hearing protection when operating the mill due to high noise levels generated during grinding.
  • Operational Stability: Place the mill on a level, vibration-dampening surface to prevent tipping and reduce mechanical stress.

These steps outline the safe initialization and operation of the planetary ball mill for powder grinding. Follow the procedure to ensure proper setup and minimize risk of injury or equipment damage.

Required Equipment: Ball milling jars, Grinding balls, Sample materials, Vacuum pump (optional)

  1. Inspection
    Inspect the planetary ball mill and vacuum jars for any damage or loose components before starting.
  2. Loading
    Load the grinding jars with the appropriate sample material and grinding balls, then seal the lids tightly.
  3. Securing
    Secure the jars onto the planetary disk and confirm that the safety interlock is engaged.
  4. Parameter Setting
    Set the desired rotational speed, grinding time, and forward/reverse cycles using the intelligent control panel.
  5. Start Operation
    Initiate the grinding program and verify that the mill operates smoothly without unusual vibration or noise.
  6. Completion
    Allow the mill to complete the programmed cycle, then press the stop button once the disk has fully stopped.
  7. Unloading
    Remove the jars carefully and unload the ground material using appropriate personal protective equipment.

What is the trade-off between revolution and rotation speed when aiming for sub-micron particle size with the vertical semi-circular planetary ball mill?

The precise coordination of revolution and rotation speeds is essential to achieve uniform particle size down to 0.1 micron, as stated in the product description. Higher speeds increase grinding energy but require careful adjustment via the variable frequency drive to prevent motor overload and maintain consistency, especially for hard or heat-sensitive materials.

Can the XQM series planetary ball mill be used with vacuum ball milling jars for air-sensitive materials, and what jar materials are available?

Yes, the vertical semi-circular planetary ball mill is compatible with vacuum ball milling jars, enabling grinding in a vacuum state for air-sensitive samples. It also supports jars made of stainless steel, ceramics, and polyurethane, as listed in the product description, allowing integration with diverse chemical environments.

What safety and infrastructure requirements are needed for continuous high-speed operation of the vertical semi-circular planetary ball mill models (e.g., the XQM-6 with 100 kg net weight) to ensure laboratory compliance?

The equipment requires a stable support surface capable of handling at least 100 kg for models like the XQM-6 and must operate within noise control standards. It is built with motor overload protection, an emergency stop function, safety switches, and wide voltage adaptation to ensure stable, compliant continuous operation.

The XQM-8C vertical semi-circular planetary ball mill leverages high-energy planetary motion and three-dimensional grinding trajectories to achieve uniform particle size down to 0.1 micron, with variable frequency control and safety protection suitable for small-batch nanomaterial and ceramic research.

Positive

  • High-Energy Planetary Motion: Planetary motion (revolution + rotation) provides high energy density, substantially improving grinding efficiency compared to conventional ball mills.
  • Uniform Particle Size Down to 0.1 Micron: Three-dimensional motion trajectory ensures thorough mixing and uniform particle size distribution, enabling nanoscale powder preparation.

Trade-offs

  • Mandatory Jar Material Selection: Compatibility with stainless steel, ceramic, and polyurethane jars requires users to select material that avoids cross-contamination with the sample, adding a preparatory step.
  • Vacuum Grinding Requires Optional Jars: Vacuum ball milling jars are an accessory; standard operation does not provide vacuum capability, necessitating additional procurement for air-sensitive sample grinding.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

Additional information

Weight 150 kg
Dimensions 88 × 56 × 67 cm

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