The MM 500 control is a high energy laboratory ball mill that can be used for dry, wet and cryogenic grinding with a frequency of up to 30 Hz. It is the first mixer mill in the market that allows to monitor and control the temperature of a grinding process.
The temperature area covers a range from -100 to 100 °C. For maximum flexibility, the mill can be operated with various thermal fluids, enabling the use of different tempering devices for cooling or heating. If liquid nitrogen is chosen for cooling, the mill needs to be equipped with the optionally available extension device cryoPad. The innovative cryoPad technology allows to select and control a specific cooling temperature in the range from - 100 to 0 °C for the grinding process.
The cooling and heating of the sample material is realized with the patented concept of thermal plates, making sample cooling with, e. g., open liquid nitrogen baths or dry ice obsolete. For tempering, the grinding jars are simply placed on top of the thermal plates. When the grinding jars come in contact with the thermal plates, heat is effectively transferred from or to the jars via the tempering device. The patented hermetically sealed fluid design allows to operate the mill with different thermal fluids, ensuring a flexible and safe temperature regulation and requiring only minimal effort for the user. Depending on the operational setup that is built up, the temperature of the thermal plates can be set in the range from - 100 to + 100 °C.
To control the temperature of a grinding process, the mill needs to be connected to an external tempering device. Basically, there are two options:
1. Temperature regulation with liquid nitrogen
The mill is operated with liquid nitrogen and connected to a nitrogen tank. In this setup the mill must be extended with the optionally available extension device cryoPad. The patented PID (proportional–integral–derivative) system of the cryoPad controls the flow of liquid nitrogen and herewith the temperature of the thermal plates. In this setup, it is possible to select and maintain the temperature of the thermal plates at a specific value. The desired temperature is adjusted via the touch display and can be selected within a range from - 100 to 0 °C, in steps of 10.
Setup 1: Extension device cryoPad and LN2 tank for the operation with liquid nitrogen.
2. Cooling or heating with a liquid thermal fluid
In this setup, the mill can either be connected to a cryostat, to a chiller or to the water tap. The external tempering device regulates the corresponding thermal fluid to a defined temperature and the thermal fluid transfers this temperature to the thermal plates. As during a grinding process, a significant amount of heat may also develop inside the jar, the temperature of the thermal plates may be manipulated. To sum up, the actual temperature of the thermal plates depends on both, on the temperature of the thermal fluid and on grinding parameters, like frequency, time, jar volume, size of grinding balls. For a maximum control of the grinding process, the actual temperature of the thermal plates is continuously monitored in the touch display.
Setup 2: Operation with an external tempering device; e.g. water tap, chiller or thermostat.
MM 500 control의 온도 조절은 온도 민감성 시료의 처리를 위해 특별히 설계되었습니다. 냉각 또는 가열은 다른 목적을 가질 수 있습니다.
일부 응용 분야에서는 시료가 분쇄 과정중 가열될 때 결과가 개선될 수 있습니다. 가열에 관한 예시는 다음과 같습니다:
요구되는 온도와 작동 설정은 특정 애플리케이션에 따라 다릅니다.
Some analytes are modified, destroyed or vaporized if the sample material gets too warm. If specific temperature levels are exceeded, the structure of, for example, proteins, pharmaceutical substances or food ingredients may be essentially changed.
By keeping the temperature at a moderate level throughout the grinding process, temperature-sensitive natural substances are physically preserved in their original state for analysis.
Grinding of coffee beans at low temperatures for natural substance analysis.
Temperatures below 0 °C are suitable for the embrittlement and homogenization of for example ductile or sticky food. If heavy-metal-free grinding is required, jars of zirconium oxide or tungsten carbide can be used.
If cooled down to - 100 °C, it is also possible to successfully embrittle some polymers.
두 개의 125 ml 용기에서 – 100 °C로 시료를 취화하여 검은색 탄화 플루오르 고무를 빠르게 분쇄합니다.
If using a chiller, powerful wet grinding can be performed at 30 Hz and below room temperature without considering any cooling breaks.
Particle size and temperature development for TiO2 in a wet grinding process with 30 Hz and 2 x 125 ml jars
By cooling the sample throughout a mechanochemical process, the formation of undesired derivatives can be prevented. It is also possible to apply some heating, for example to initiate chemical reactions and increase product yields.
By keeping the temperature below 0 °C, the formation of non-porous zeolitic metal organic compound is inhibited.
By increasing the temperature during synthesis, the yield of a metal organic compound can be increased.
사용 가능한 분쇄 용기 사이즈는 50 ml, 80 ml 에서 125 ml이며 재질에는 스테인레스 강, 탄화 텅스텐, 산화 지르코늄이 포함되어 있으며 오염 없는 시료의 전처리를 보장합니다. 저온에서 중금속 방지 분쇄가 가능합니다.
RETSCH는 볼 밀 용기 내에서 특별한 분위기를 유지해야하는 응용 분야를 위해 설계된 분쇄 용기 용 특수 areation 덮개를 제공합니다.
The GrindControl measures temperature and pressure inside the jar. The system includes a sensor and transmission unit as well as an analysis software.
Simultaneous processing of several small samples is possible with the multi-cavity jars and an adapter for reaction vials. This is a typical requirement, for example, for pharmaceutical, chemical and biochemical applications. The small cavity jars provide new opportunities for mechanochemical research activities involving small amounts of chemicals.
The cavities in the jars have an oval shape which ensures effective mixing. The pouring aids allow for safe sample handling. The multi-cavity jars are made of stainless steel, thus providing effective heat transfer to or from the sample.
The adapter accommodates up to 18 disposable reaction vials of 1.5 or 2.0 ml (e.g. Eppendorf vials) or nine 2.0 ml steel tubes. With its two grinding stations, the MM 500 control mixer mill can now process up to 36 samples in one working run. 2.0 ml steel tubes should be used if samples need to be frozen or heated, as polymeric reaction vessels cannot withstand mechanical load at extreme temperatures. The adapter is made of aluminum so that heat is efficiently transferred to and from the reaction tubes.
Multi-cavity jars of 4 x 10 ml and 2 x 25 ml, made of stainless steel, incl. PTFE pouring aids.
Adapter for 18 x 2 ml safe-lock reaction vials or 9 x 2 ml steel tubes, made of aluminum
As the MM 500 control can be used with or without cooling, the mill offers a wide variety of applications. It can be used to homogenize, for example, waste, soil, chemical products, coated tablets, drugs, ores, grain, tissue, glass, hair, ceramics, bones, plastics, alloys, minerals, oil seeds, plants, sewage sludge, pills, textiles, wool etc.
건포도
코팅된 정제
폴리스티렌
토양
샘플 준비 작업에 가장 적합한 솔루션을 찾으려면 애플리케이션 데이터베이스를 방문하십시오.
| 응용 분야 | 기계 화학, 합금, 입도 감소, 혼합, 균질화, 냉동 분쇄 |
| 응용분야 | 건축자재, 기술적/전기적, 농산물, 생물학, 식품, 유리 제품/ 세라믹, 의학/제약, 지질학 / 금속 공학, 화학/플라스틱 공학, 환경 / 재활용 |
| 투입 시료 | 경질, 중-경질, 연질, 취성, 탄성, 섬유질 |
| 크기 축소 원리 | 충격, 마찰 |
| 최대 투입 크기* | <= 10 mm |
| 최종 분말 입도* | ~ 0.1 µm |
| 시료 일괄 처리량* | 최대 2 x 45 ml |
| 분쇄조 용량 | max. 2 x 125 ml |
| 분쇄조 수 | 2 |
| Vibrational frequency | 3 - 30 Hz (180 -1800 min-1) |
| Setting of temperature setpoint | digital, 0 ... -100 °C (only with cryoPad) |
| Setting of sample cooling time | digital, 0 ... 60 min (only with cryoPad) |
| 분쇄 시간 설정 | digital, 10 s - 8 h |
| 총 분쇄 시간 | 99 h |
| 표준 운영 절차 저장 가능 수 | 12 |
| 저장 가능 주기 프로그램 수 | 4 (99번 반복) |
| 평균 분쇄 시간 | 30 초 - 2 분 |
| 건식 분쇄 | 가능 |
| 습식 분쇄 | 가능 |
| 냉동 분쇄 | 가능 |
| 분쇄 용기 종류 | screw-lock jar with integrated safety closure devices, multi cavity jar, adapter for safe-lock reaction vials |
| 분쇄 도구 재질 | 경화 강철, 스테인레스 스틸, 텅스텐 카바이드, 지르코늄 산화물 |
| 분쇄 용기 크기 | 10 ml / 25 ml / 50 ml / 80 ml / 125 ml |
| 전원 공급 데이터 | 100-120 V, 50/60 Hz; 200-230 V, 50/60Hz |
| 전원 연결 | 단상 |
| 안전 보호 코드 | IP 30 |
| 소비 전력 | 750 W |
| 폭 x 높이 x 깊이 닫혔을 때 | 690 x 375 x 585 mm |
| W x H x D closed with cryoPad | 690 x 485 x 585 mm |
| 중량 | ~ 63 kg |
| 표준 | CE |
| Connection thread size device input | G 1/4" (inner thread) |
| Connection thread size tubing set | G 3/8" (outer thread) |
| Permissible operating pressure cooling device (provided by customer) | 0 ... 5 bar |
| typical pressure range of continous cooling unit e.g. cryostat | 1 ... 2 bar |
| permissible pressure range of LN2 supply | 1.2 ...1.4 bar |
| Permissible fluids | water, water-glycole mixture, thermal oil, liquid nitrogen |
| Thermal applications | embrittling, cooling, heating, temperature control |
| temperature range of fluids | +100 °C ... -196 °C |
| temperature range of cooling plates | +100 °C ... -100 °C |
| 응용 분야 | cryogenic grinding with liquid nitrogen |
| 인터페이스 | RS-232 (MM 500 control) |
| Communication connection | via included connection cable |
| Power supply | via external power supply |
| Electrical supply data (input external power supply) | 100-230V, 50/60 Hz |
| External power supply classification | Medical grade isolation level |
| Electrical supply data (input cryoPad) | 24 V, 1 A |
| 액세서리 | LN2 Autofill 150L, LN2 Autofill 50L |
| LED status light | 가능 |
| 폭 x 높이 x 깊이 | 670 x 110 x 590 mm |
| 중량 | ~ 26 kg |
| 표준 | CE |
| Connection thread size device input | G 1/4" (inner thread) |
| Connection thread size of stainless steel tubing adapter | UNF 3/4" |
| Permissible pressure range of LN2 supply | 1.2 ...1.4 bar |
| Permissible fluids | Liquid nitrogen |
| Emissions | Liquid nitrogen gas, condensation |
| Connection | via included tubing set |
| Exhaust outlet | via included Exhaust adapter and aluminum corrugated tube |
| temperature range of fluids | -196 °C |
| temperature control algorithm | PID temperature control |
| Setting of temperature setpoint | digital, 0 ... -100 °C |
| Setting of sample cooling time | digital, 0 ... 60 min |
The grinding jars of the mixer mill MM 500 control perform radial oscillations in a horizontal position. The inertia of the grinding balls causes them to impact with high energy on the sample material at the rounded ends of the grinding jars and pulverize it. High energy milling is possible by operating at high frequencies up to 30 Hz. The movement of the grinding jars combined with the movement of the balls further causes grinding effects due to friction and additionally result in an effective mixing of the sample. The degree of mixing can be increased even further by using several smaller balls.
