Laboratory endowments from plastics and rubber
The following lab (oratory) products from rubber and plastics are from import .Our suppliers from the Western Europe have a quality guarantee system and certificates ISO 9001 or ISO 9002.
In Romania the utensils from different plastics materials become more and more spread ,in many lab domains excluding the glass, metal, and wood utensils. Among advantages, there is the fact that they are not breakable, are easy, are cleaned well and don’t corrode themselves. As for the plastics materials the microelements’ adsorption and the ionic exchange is much more prominent than at the glass.
From the point of view of chemical and thermal resistance, plastics utensils from hydrocarbon fluoride (type PTFE) have properties similar those of glass. The use of the utensils from plastics of single use makes that the majority of the routine operations to become safer and more rapid.Demand offer
In Romania the utensils from different plastics materials become more and more spread ,in many lab domains excluding the glass, metal, and wood utensils. Among advantages, there is the fact that they are not breakable, are easy, are cleaned well and don’t corrode themselves. As for the plastics materials the microelements’ adsorption and the ionic exchange is much more prominent than at the glass.
From the point of view of chemical and thermal resistance, plastics utensils from hydrocarbon fluoride (type PTFE) have properties similar those of glass. The use of the utensils from plastics of single use makes that the majority of the routine operations to become safer and more rapid.Demand offer
Supplementary information.
For a choice as easy as possible we present you the following dates:
- PE, LDPE, HDPE, Polyethylene. It is one of the cheapest and most used raw materials. Relatively soft, little resistant at heat, and an average resistance at chemicals. They are used in general purposes for utensils of single use. The high density polyethylene (HDPE) has a better chemical resistance (for example at aromatic solvents) and in the same time is rigid and little transparent.
- PP, Polypropylene. Due to the mechanical characteristics and the good chemical and technical resistance (auto sterilization), it is used at many utensils making.
- PS, Polystyrene. Glass clarity material, cheap but breakable and it doesn’t resist at heat. It is used at making many single use utensils for medical and microbiological purposes.
- PMP (TPX), Polymetylpentan. Transparent like polystyrene but with a good chemical and thermal resistance.
- PVC, Vinyl polychloride. Less spread in the labs, used mainly for making tubes. It has chemical and thermal average resistance.
- PTFE< PTFE, poly-tetrafluorthylene.
- Well known for a good resistance at chemicals and high temperatures. The disadvantage is rigidity, low transparency and the relatively high price.
- E-CTFE/ETFE, Ethylene-chlorine-trifluor-ethylene, ethylen- tetrafluor-ethylene. Comparing to the classical plastics, they have a very good chemical and thermal resistance. They have a transparency similar to that of polypropylene.
- PFA/FEP, Perfluoralcoxi/ tetrafluor-ethylen- perfluor- propylene. Similar to other domains, the use of plastics “high-tech” is spread also in making lab utensils. These materials have the chemical and thermal resistance of PTFE but they are more plastic and translucent.
- SI, silicon rubber. It has a thermal resistance (200 degrees Celsius) and a convenient chemical resistance (sensible at bases). It is used mainly at tubes and stoppersDemand offer
- PE, LDPE, HDPE, Polyethylene. It is one of the cheapest and most used raw materials. Relatively soft, little resistant at heat, and an average resistance at chemicals. They are used in general purposes for utensils of single use. The high density polyethylene (HDPE) has a better chemical resistance (for example at aromatic solvents) and in the same time is rigid and little transparent.
- PP, Polypropylene. Due to the mechanical characteristics and the good chemical and technical resistance (auto sterilization), it is used at many utensils making.
- PS, Polystyrene. Glass clarity material, cheap but breakable and it doesn’t resist at heat. It is used at making many single use utensils for medical and microbiological purposes.
- PMP (TPX), Polymetylpentan. Transparent like polystyrene but with a good chemical and thermal resistance.
- PVC, Vinyl polychloride. Less spread in the labs, used mainly for making tubes. It has chemical and thermal average resistance.
- PTFE< PTFE, poly-tetrafluorthylene.
- Well known for a good resistance at chemicals and high temperatures. The disadvantage is rigidity, low transparency and the relatively high price.
- E-CTFE/ETFE, Ethylene-chlorine-trifluor-ethylene, ethylen- tetrafluor-ethylene. Comparing to the classical plastics, they have a very good chemical and thermal resistance. They have a transparency similar to that of polypropylene.
- PFA/FEP, Perfluoralcoxi/ tetrafluor-ethylen- perfluor- propylene. Similar to other domains, the use of plastics “high-tech” is spread also in making lab utensils. These materials have the chemical and thermal resistance of PTFE but they are more plastic and translucent.
- SI, silicon rubber. It has a thermal resistance (200 degrees Celsius) and a convenient chemical resistance (sensible at bases). It is used mainly at tubes and stoppersDemand offer
Rubber and plastics tubes
- Stoppers of rubber, of natural rubber, and silicon rubber.
- Rubber cone (Guko), for filtering from rubber;
- Rubber pear for automatic burettes;
- Pear for dropper balloon Griffin, with valve.
- Pear for dropper;
- Moulds of different forms;
- Vessel for mixing and pouring;
- Rubber sheet.Demand offer
- Rubber cone (Guko), for filtering from rubber;
- Rubber pear for automatic burettes;
- Pear for dropper balloon Griffin, with valve.
- Pear for dropper;
- Moulds of different forms;
- Vessel for mixing and pouring;
- Rubber sheet.Demand offer
