Tongs bow - Stainless Steel

3060

150mm Stainless Steel Bow Tongs

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Dimensions
Length A: 160mm
Tips to hinge B: 72mm
Bow closed C: 18mm
Bow open fully C: 55mm
Packed Weight
0.059 kg
Product Code
3060
Description
Laboratory Bow Tong, stainless steel 304 spec 18/8 non-magnetic, bright finish.
Notes
Stainless Steel


For laboratory metalware consumables we use the finest in corrosion-resistant 304 stainless steel. Laboratory cleanliness and stainless steel are closely related and, in many applications, each is dependent upon the other and it’s the stainless steel providing the degree of corrosion resistance that is necessary to prevent product contamination.


It's quick to clean and has an attractive shiny appearance making it the material of choice for applications requiring sterile surfaces. It is immune to sterilizing solutions, most of the organic chemicals and dyestuffs, and a wide variety of inorganic chemicals.


Stainless steel is an extremely durable surface; it can, however, be scratched or scuffed..


Stainless Steel 304


Stainless Steel 304 alternatively known as an 18/8 Alloy, is designed for corrosion resistance and durability ideal in laboratory routines. The 304 series stainless steels have approximately 18% chromium and 8% nickel and are non-magnetic. The 304 stainless steel is an optimal grade having superior corrosion resistance when compared with the magnetic lower cost stainless steels. This magnetic/non-magnetic property provides a quick test to establish the quality of stainless steel.


How is it “stainless”


With a minimum of 12% chromium in the steel it makes it rust resistant and known as stain 'less'. The chromium in the steel combines with oxygen in the atmosphere to form a thin, invisible layer of chrome-containing oxide, called the passive film. If the metal is cut or scratched and the passive film is disrupted, more oxide will quickly form and recover the exposed surface, protecting it from corrosion. The passive film requires oxygen to self-repair, so stainless steels have poor corrosion resistance in low-oxygen conditions. Also chlorides will attack and destroy the passive film.


The Quality of stainless steel


We demand good quality 304 stainless steel from traceable sources ensuring its composition of chromium, meets specified levels, to provide corrosion resistance for demanding laboratory applications. Some stainless steels have high levels of sulphide impurities reducing the chromium levels making them more vulnerable to corrosion known as "pitting". This can lead to a contamination risk in laboratory routines and procedures.


High-temperatures


Normal temperature range -196 to +550°C.


Suitable for intermittent use up to 870°C.


Continuous use of 304 in the 550-870°C range is not recommended since its corrosion properties are affected leading to pitting. We would suggest our nickel or zirconium product ranges for this elevated temperature range.


Corrosion Resistance


Water


Stainless steel is, by itself, metallurgically incapable of rusting in water. Tough Stains or the appearance of what looks like rust are result of water-borne minerals or particles.


There may be occasions when "rust stains" appear but this is result of iron particles from an outside source in water supply and can be removed with cleaners containing oxalic acid such as Bar Keepers Friend® or dilute solution containing phosphoric acid. Do not use steel wool pads as they leave tiny particles that will develop into rust spots.


Acids


Sulphuric


No corrosion resistance from dilute to concentrated amounts.


Hydrochloric


Chlorides pose high risk of pitting corrosion, depending on concentrations.


Hydrofluoric


No corrosion resistance.


Phosphoric


Concentrations up to 80% at room temperature provide excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel 304 corrosion performance.


Nitric


Solutions of Nitric with concentrations up to 60%, at room temperature, provides excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel corrosion performance.


Alkalis


Generally majority of alkali solutions do not affect stainless steel.





Cleaning



Stainless steels need to be cleaned for aesthetic considerations and to preserve corrosion resistance. Any contamination of the surface by dirt, or other material, hinders the natural passivation process and traps corrosive agents, thus reducing corrosion protection. Some form of routine cleaning is necessary to preserve the appearance and integrity of the surface and actually thrive with frequent cleaning. Unlike some other materials, it is impossible to “wear out” stainless steel by excessive cleaning.



Like any surface that is used it can get dirty which can consist of accumulated dust and a variety of contaminates that come from many sources in the laboratory. These contaminates will vary greatly in their effect on appearance and corrosion effects. While some may be easily removed, others may require specific cleaners for effective removal and it may be necessary to identify the contaminate or experiment with various cleaners. Frequently, warm water with or without a gentle detergent is sufficient. Next in order are mild non-scratching abrasive powders and general purpose cleaning solutions. These can be used with warm water, bristle brushes, sponges, or clean cloths.



Stainless steel metalware consumables can be autoclaved and resistant to sanitizing agents for sterile applications.



Types of cleaners and methods



Clean Water and Wipe is the simplest method and stainless surfaces thrive with frequent cleaning. A soft cloth and clean warm water should always be the first choice for mild stains and loose dirt and soils. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Clifton Ultrasonic water baths can be useful providing a cleaning process, using the ultrasonic activity, in a water based detergent solution removing debris and dirt. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Solvent Cleaning using Organic solvents can be used to remove fresh debris, oils, chemicals that have not had time to oxidize or decompose. The preferred solvent is one that does not contain chlorine,
such as acetone, methyl alcohol, and mineral spirits. There are many compounded or blended organic cleaners that are commercially available. Cleaning can be accomplished by immersing smaller articles directly into the solvent, wiping with solvent-impregnated cloths, or vapor or spray methods..



Commercial Cleaners many commercial cleaners compounded from phosphates, synthetic detergents, and alkalis are available for the cleaning of severely soiled or stained stainless surfaces. When used with a variety of cleaning methods, these cleaners can safely provide effective cleaning. A neutral cleaner low in chloride is preferred and must be rinsed thoroughly after cleaning. The fact that the label states “for stainless steel” is no guarantee that the product is suitable.



Do not use chloride-containing detergents or carbon steel or wire wool brushes.

No accessories available for this product.

Metalware Supplement

PDF File   Product Literature

3061

200mm Stainless Steel Bow Tongs

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Dimensions
Length A: 203mm
Tips to hinge B: 90mm
Bow closed C: 25mm
Bow open fully C: 75mm
Packed Weight
0.078 kg
Product Code
3061
Description
Laboratory Bow Tong, stainless steel 304 spec 18/8 non-magnetic, bright finish.
Notes
Stainless Steel


For laboratory metalware consumables we use the finest in corrosion-resistant 304 stainless steel. Laboratory cleanliness and stainless steel are closely related and, in many applications, each is dependent upon the other and it’s the stainless steel providing the degree of corrosion resistance that is necessary to prevent product contamination.


It's quick to clean and has an attractive shiny appearance making it the material of choice for applications requiring sterile surfaces. It is immune to sterilizing solutions, most of the organic chemicals and dyestuffs, and a wide variety of inorganic chemicals.


Stainless steel is an extremely durable surface; it can, however, be scratched or scuffed..


Stainless Steel 304


Stainless Steel 304 alternatively known as an 18/8 Alloy, is designed for corrosion resistance and durability ideal in laboratory routines. The 304 series stainless steels have approximately 18% chromium and 8% nickel and are non-magnetic. The 304 stainless steel is an optimal grade having superior corrosion resistance when compared with the magnetic lower cost stainless steels. This magnetic/non-magnetic property provides a quick test to establish the quality of stainless steel.


How is it “stainless”


With a minimum of 12% chromium in the steel it makes it rust resistant and known as stain 'less'. The chromium in the steel combines with oxygen in the atmosphere to form a thin, invisible layer of chrome-containing oxide, called the passive film. If the metal is cut or scratched and the passive film is disrupted, more oxide will quickly form and recover the exposed surface, protecting it from corrosion. The passive film requires oxygen to self-repair, so stainless steels have poor corrosion resistance in low-oxygen conditions. Also chlorides will attack and destroy the passive film.


The Quality of stainless steel


We demand good quality 304 stainless steel from traceable sources ensuring its composition of chromium, meets specified levels, to provide corrosion resistance for demanding laboratory applications. Some stainless steels have high levels of sulphide impurities reducing the chromium levels making them more vulnerable to corrosion known as "pitting". This can lead to a contamination risk in laboratory routines and procedures.


High-temperatures


Normal temperature range -196 to +550°C.


Suitable for intermittent use up to 870°C.


Continuous use of 304 in the 550-870°C range is not recommended since its corrosion properties are affected leading to pitting. We would suggest our nickel or zirconium product ranges for this elevated temperature range.


Corrosion Resistance


Water


Stainless steel is, by itself, metallurgically incapable of rusting in water. Tough Stains or the appearance of what looks like rust are result of water-borne minerals or particles.


There may be occasions when "rust stains" appear but this is result of iron particles from an outside source in water supply and can be removed with cleaners containing oxalic acid such as Bar Keepers Friend® or dilute solution containing phosphoric acid. Do not use steel wool pads as they leave tiny particles that will develop into rust spots.


Acids


Sulphuric


No corrosion resistance from dilute to concentrated amounts.


Hydrochloric


Chlorides pose high risk of pitting corrosion, depending on concentrations.


Hydrofluoric


No corrosion resistance.


Phosphoric


Concentrations up to 80% at room temperature provide excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel 304 corrosion performance.


Nitric


Solutions of Nitric with concentrations up to 60%, at room temperature, provides excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel corrosion performance.


Alkalis


Generally majority of alkali solutions do not affect stainless steel.





Cleaning



Stainless steels need to be cleaned for aesthetic considerations and to preserve corrosion resistance. Any contamination of the surface by dirt, or other material, hinders the natural passivation process and traps corrosive agents, thus reducing corrosion protection. Some form of routine cleaning is necessary to preserve the appearance and integrity of the surface and actually thrive with frequent cleaning. Unlike some other materials, it is impossible to “wear out” stainless steel by excessive cleaning.



Like any surface that is used it can get dirty which can consist of accumulated dust and a variety of contaminates that come from many sources in the laboratory. These contaminates will vary greatly in their effect on appearance and corrosion effects. While some may be easily removed, others may require specific cleaners for effective removal and it may be necessary to identify the contaminate or experiment with various cleaners. Frequently, warm water with or without a gentle detergent is sufficient. Next in order are mild non-scratching abrasive powders and general purpose cleaning solutions. These can be used with warm water, bristle brushes, sponges, or clean cloths.



Stainless steel metalware consumables can be autoclaved and resistant to sanitizing agents for sterile applications.



Types of cleaners and methods



Clean Water and Wipe is the simplest method and stainless surfaces thrive with frequent cleaning. A soft cloth and clean warm water should always be the first choice for mild stains and loose dirt and soils. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Clifton Ultrasonic water baths can be useful providing a cleaning process, using the ultrasonic activity, in a water based detergent solution removing debris and dirt. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Solvent Cleaning using Organic solvents can be used to remove fresh debris, oils, chemicals that have not had time to oxidize or decompose. The preferred solvent is one that does not contain chlorine,
such as acetone, methyl alcohol, and mineral spirits. There are many compounded or blended organic cleaners that are commercially available. Cleaning can be accomplished by immersing smaller articles directly into the solvent, wiping with solvent-impregnated cloths, or vapor or spray methods..



Commercial Cleaners many commercial cleaners compounded from phosphates, synthetic detergents, and alkalis are available for the cleaning of severely soiled or stained stainless surfaces. When used with a variety of cleaning methods, these cleaners can safely provide effective cleaning. A neutral cleaner low in chloride is preferred and must be rinsed thoroughly after cleaning. The fact that the label states “for stainless steel” is no guarantee that the product is suitable.



Do not use chloride-containing detergents or carbon steel or wire wool brushes.

No accessories available for this product.

Metalware Supplement

PDF File   Product Literature

3063

300mm Stainless Steel Bow Tongs

« Return to Tongs

Dimensions
Length A: 305mm
Tips to hinge B: 130mm
Bow closed C: 50mm
Bow open fully C: 100mm
Packed Weight
0.120 kg
Product Code
3063
Description
Laboratory Bow Tong, stainless steel 304 spec 18/8 non-magnetic, bright finish.
Notes
Stainless Steel


For laboratory metalware consumables we use the finest in corrosion-resistant 304 stainless steel. Laboratory cleanliness and stainless steel are closely related and, in many applications, each is dependent upon the other and it’s the stainless steel providing the degree of corrosion resistance that is necessary to prevent product contamination.


It's quick to clean and has an attractive shiny appearance making it the material of choice for applications requiring sterile surfaces. It is immune to sterilizing solutions, most of the organic chemicals and dyestuffs, and a wide variety of inorganic chemicals.


Stainless steel is an extremely durable surface; it can, however, be scratched or scuffed..


Stainless Steel 304


Stainless Steel 304 alternatively known as an 18/8 Alloy, is designed for corrosion resistance and durability ideal in laboratory routines. The 304 series stainless steels have approximately 18% chromium and 8% nickel and are non-magnetic. The 304 stainless steel is an optimal grade having superior corrosion resistance when compared with the magnetic lower cost stainless steels. This magnetic/non-magnetic property provides a quick test to establish the quality of stainless steel.


How is it “stainless”


With a minimum of 12% chromium in the steel it makes it rust resistant and known as stain 'less'. The chromium in the steel combines with oxygen in the atmosphere to form a thin, invisible layer of chrome-containing oxide, called the passive film. If the metal is cut or scratched and the passive film is disrupted, more oxide will quickly form and recover the exposed surface, protecting it from corrosion. The passive film requires oxygen to self-repair, so stainless steels have poor corrosion resistance in low-oxygen conditions. Also chlorides will attack and destroy the passive film.


The Quality of stainless steel


We demand good quality 304 stainless steel from traceable sources ensuring its composition of chromium, meets specified levels, to provide corrosion resistance for demanding laboratory applications. Some stainless steels have high levels of sulphide impurities reducing the chromium levels making them more vulnerable to corrosion known as "pitting". This can lead to a contamination risk in laboratory routines and procedures.


High-temperatures


Normal temperature range -196 to +550°C.


Suitable for intermittent use up to 870°C.


Continuous use of 304 in the 550-870°C range is not recommended since its corrosion properties are affected leading to pitting. We would suggest our nickel or zirconium product ranges for this elevated temperature range.


Corrosion Resistance


Water


Stainless steel is, by itself, metallurgically incapable of rusting in water. Tough Stains or the appearance of what looks like rust are result of water-borne minerals or particles.


There may be occasions when "rust stains" appear but this is result of iron particles from an outside source in water supply and can be removed with cleaners containing oxalic acid such as Bar Keepers Friend® or dilute solution containing phosphoric acid. Do not use steel wool pads as they leave tiny particles that will develop into rust spots.


Acids


Sulphuric


No corrosion resistance from dilute to concentrated amounts.


Hydrochloric


Chlorides pose high risk of pitting corrosion, depending on concentrations.


Hydrofluoric


No corrosion resistance.


Phosphoric


Concentrations up to 80% at room temperature provide excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel 304 corrosion performance.


Nitric


Solutions of Nitric with concentrations up to 60%, at room temperature, provides excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel corrosion performance.


Alkalis


Generally majority of alkali solutions do not affect stainless steel.





Cleaning



Stainless steels need to be cleaned for aesthetic considerations and to preserve corrosion resistance. Any contamination of the surface by dirt, or other material, hinders the natural passivation process and traps corrosive agents, thus reducing corrosion protection. Some form of routine cleaning is necessary to preserve the appearance and integrity of the surface and actually thrive with frequent cleaning. Unlike some other materials, it is impossible to “wear out” stainless steel by excessive cleaning.



Like any surface that is used it can get dirty which can consist of accumulated dust and a variety of contaminates that come from many sources in the laboratory. These contaminates will vary greatly in their effect on appearance and corrosion effects. While some may be easily removed, others may require specific cleaners for effective removal and it may be necessary to identify the contaminate or experiment with various cleaners. Frequently, warm water with or without a gentle detergent is sufficient. Next in order are mild non-scratching abrasive powders and general purpose cleaning solutions. These can be used with warm water, bristle brushes, sponges, or clean cloths.



Stainless steel metalware consumables can be autoclaved and resistant to sanitizing agents for sterile applications.



Types of cleaners and methods



Clean Water and Wipe is the simplest method and stainless surfaces thrive with frequent cleaning. A soft cloth and clean warm water should always be the first choice for mild stains and loose dirt and soils. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Clifton Ultrasonic water baths can be useful providing a cleaning process, using the ultrasonic activity, in a water based detergent solution removing debris and dirt. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Solvent Cleaning using Organic solvents can be used to remove fresh debris, oils, chemicals that have not had time to oxidize or decompose. The preferred solvent is one that does not contain chlorine,
such as acetone, methyl alcohol, and mineral spirits. There are many compounded or blended organic cleaners that are commercially available. Cleaning can be accomplished by immersing smaller articles directly into the solvent, wiping with solvent-impregnated cloths, or vapor or spray methods..



Commercial Cleaners many commercial cleaners compounded from phosphates, synthetic detergents, and alkalis are available for the cleaning of severely soiled or stained stainless surfaces. When used with a variety of cleaning methods, these cleaners can safely provide effective cleaning. A neutral cleaner low in chloride is preferred and must be rinsed thoroughly after cleaning. The fact that the label states “for stainless steel” is no guarantee that the product is suitable.



Do not use chloride-containing detergents or carbon steel or wire wool brushes.

No accessories available for this product.

Metalware Supplement

PDF File   Product Literature

3064

400mm Stainless Steel Bow Tongs

« Return to Tongs

Dimensions
Length A: 410mm
Tips to hinge B:: 140mm
Bow closed C: 50mm
Bow open fully C: 150mm
Packed Weight
0.150 kg
Product Code
3064
Description
Laboratory Bow Tong, stainless steel 304 spec 18/8 non-magnetic, bright finish.
Notes
Stainless Steel


For laboratory metalware consumables we use the finest in corrosion-resistant 304 stainless steel. Laboratory cleanliness and stainless steel are closely related and, in many applications, each is dependent upon the other and it’s the stainless steel providing the degree of corrosion resistance that is necessary to prevent product contamination.


It's quick to clean and has an attractive shiny appearance making it the material of choice for applications requiring sterile surfaces. It is immune to sterilizing solutions, most of the organic chemicals and dyestuffs, and a wide variety of inorganic chemicals.


Stainless steel is an extremely durable surface; it can, however, be scratched or scuffed..


Stainless Steel 304


Stainless Steel 304 alternatively known as an 18/8 Alloy, is designed for corrosion resistance and durability ideal in laboratory routines. The 304 series stainless steels have approximately 18% chromium and 8% nickel and are non-magnetic. The 304 stainless steel is an optimal grade having superior corrosion resistance when compared with the magnetic lower cost stainless steels. This magnetic/non-magnetic property provides a quick test to establish the quality of stainless steel.


How is it “stainless”


With a minimum of 12% chromium in the steel it makes it rust resistant and known as stain 'less'. The chromium in the steel combines with oxygen in the atmosphere to form a thin, invisible layer of chrome-containing oxide, called the passive film. If the metal is cut or scratched and the passive film is disrupted, more oxide will quickly form and recover the exposed surface, protecting it from corrosion. The passive film requires oxygen to self-repair, so stainless steels have poor corrosion resistance in low-oxygen conditions. Also chlorides will attack and destroy the passive film.


The Quality of stainless steel


We demand good quality 304 stainless steel from traceable sources ensuring its composition of chromium, meets specified levels, to provide corrosion resistance for demanding laboratory applications. Some stainless steels have high levels of sulphide impurities reducing the chromium levels making them more vulnerable to corrosion known as "pitting". This can lead to a contamination risk in laboratory routines and procedures.


High-temperatures


Normal temperature range -196 to +550°C.


Suitable for intermittent use up to 870°C.


Continuous use of 304 in the 550-870°C range is not recommended since its corrosion properties are affected leading to pitting. We would suggest our nickel or zirconium product ranges for this elevated temperature range.


Corrosion Resistance


Water


Stainless steel is, by itself, metallurgically incapable of rusting in water. Tough Stains or the appearance of what looks like rust are result of water-borne minerals or particles.


There may be occasions when "rust stains" appear but this is result of iron particles from an outside source in water supply and can be removed with cleaners containing oxalic acid such as Bar Keepers Friend® or dilute solution containing phosphoric acid. Do not use steel wool pads as they leave tiny particles that will develop into rust spots.


Acids


Sulphuric


No corrosion resistance from dilute to concentrated amounts.


Hydrochloric


Chlorides pose high risk of pitting corrosion, depending on concentrations.


Hydrofluoric


No corrosion resistance.


Phosphoric


Concentrations up to 80% at room temperature provide excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel 304 corrosion performance.


Nitric


Solutions of Nitric with concentrations up to 60%, at room temperature, provides excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel corrosion performance.


Alkalis


Generally majority of alkali solutions do not affect stainless steel.





Cleaning



Stainless steels need to be cleaned for aesthetic considerations and to preserve corrosion resistance. Any contamination of the surface by dirt, or other material, hinders the natural passivation process and traps corrosive agents, thus reducing corrosion protection. Some form of routine cleaning is necessary to preserve the appearance and integrity of the surface and actually thrive with frequent cleaning. Unlike some other materials, it is impossible to “wear out” stainless steel by excessive cleaning.



Like any surface that is used it can get dirty which can consist of accumulated dust and a variety of contaminates that come from many sources in the laboratory. These contaminates will vary greatly in their effect on appearance and corrosion effects. While some may be easily removed, others may require specific cleaners for effective removal and it may be necessary to identify the contaminate or experiment with various cleaners. Frequently, warm water with or without a gentle detergent is sufficient. Next in order are mild non-scratching abrasive powders and general purpose cleaning solutions. These can be used with warm water, bristle brushes, sponges, or clean cloths.



Stainless steel metalware consumables can be autoclaved and resistant to sanitizing agents for sterile applications.



Types of cleaners and methods



Clean Water and Wipe is the simplest method and stainless surfaces thrive with frequent cleaning. A soft cloth and clean warm water should always be the first choice for mild stains and loose dirt and soils. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Clifton Ultrasonic water baths can be useful providing a cleaning process, using the ultrasonic activity, in a water based detergent solution removing debris and dirt. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Solvent Cleaning using Organic solvents can be used to remove fresh debris, oils, chemicals that have not had time to oxidize or decompose. The preferred solvent is one that does not contain chlorine,
such as acetone, methyl alcohol, and mineral spirits. There are many compounded or blended organic cleaners that are commercially available. Cleaning can be accomplished by immersing smaller articles directly into the solvent, wiping with solvent-impregnated cloths, or vapor or spray methods..



Commercial Cleaners many commercial cleaners compounded from phosphates, synthetic detergents, and alkalis are available for the cleaning of severely soiled or stained stainless surfaces. When used with a variety of cleaning methods, these cleaners can safely provide effective cleaning. A neutral cleaner low in chloride is preferred and must be rinsed thoroughly after cleaning. The fact that the label states “for stainless steel” is no guarantee that the product is suitable.



Do not use chloride-containing detergents or carbon steel or wire wool brushes.

No accessories available for this product.

Metalware Supplement

PDF File   Product Literature

3066

500mm Stainless Steel Bow Tongs

« Return to Tongs

Dimensions
Length A: 508mm
Tips to hinge B: 140mm
Bow closed C: 50mm
Bow open fully C: 150mm
Packed Weight
0.18 kg
Product Code
3066
Description
Laboratory Bow Tong, stainless steel 304 spec 18/8 non-magnetic, bright finish.
Notes
Stainless Steel


For laboratory metalware consumables we use the finest in corrosion-resistant 304 stainless steel. Laboratory cleanliness and stainless steel are closely related and, in many applications, each is dependent upon the other and it’s the stainless steel providing the degree of corrosion resistance that is necessary to prevent product contamination.


It's quick to clean and has an attractive shiny appearance making it the material of choice for applications requiring sterile surfaces. It is immune to sterilizing solutions, most of the organic chemicals and dyestuffs, and a wide variety of inorganic chemicals.


Stainless steel is an extremely durable surface; it can, however, be scratched or scuffed..


Stainless Steel 304


Stainless Steel 304 alternatively known as an 18/8 Alloy, is designed for corrosion resistance and durability ideal in laboratory routines. The 304 series stainless steels have approximately 18% chromium and 8% nickel and are non-magnetic. The 304 stainless steel is an optimal grade having superior corrosion resistance when compared with the magnetic lower cost stainless steels. This magnetic/non-magnetic property provides a quick test to establish the quality of stainless steel.


How is it “stainless”


With a minimum of 12% chromium in the steel it makes it rust resistant and known as stain 'less'. The chromium in the steel combines with oxygen in the atmosphere to form a thin, invisible layer of chrome-containing oxide, called the passive film. If the metal is cut or scratched and the passive film is disrupted, more oxide will quickly form and recover the exposed surface, protecting it from corrosion. The passive film requires oxygen to self-repair, so stainless steels have poor corrosion resistance in low-oxygen conditions. Also chlorides will attack and destroy the passive film.


The Quality of stainless steel


We demand good quality 304 stainless steel from traceable sources ensuring its composition of chromium, meets specified levels, to provide corrosion resistance for demanding laboratory applications. Some stainless steels have high levels of sulphide impurities reducing the chromium levels making them more vulnerable to corrosion known as "pitting". This can lead to a contamination risk in laboratory routines and procedures.


High-temperatures


Normal temperature range -196 to +550°C.


Suitable for intermittent use up to 870°C.


Continuous use of 304 in the 550-870°C range is not recommended since its corrosion properties are affected leading to pitting. We would suggest our nickel or zirconium product ranges for this elevated temperature range.


Corrosion Resistance


Water


Stainless steel is, by itself, metallurgically incapable of rusting in water. Tough Stains or the appearance of what looks like rust are result of water-borne minerals or particles.


There may be occasions when "rust stains" appear but this is result of iron particles from an outside source in water supply and can be removed with cleaners containing oxalic acid such as Bar Keepers Friend® or dilute solution containing phosphoric acid. Do not use steel wool pads as they leave tiny particles that will develop into rust spots.


Acids


Sulphuric


No corrosion resistance from dilute to concentrated amounts.


Hydrochloric


Chlorides pose high risk of pitting corrosion, depending on concentrations.


Hydrofluoric


No corrosion resistance.


Phosphoric


Concentrations up to 80% at room temperature provide excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel 304 corrosion performance.


Nitric


Solutions of Nitric with concentrations up to 60%, at room temperature, provides excellent corrosion resistance. Increasing the concentration and raising the temperature degrades stainless steel corrosion performance.


Alkalis


Generally majority of alkali solutions do not affect stainless steel.





Cleaning



Stainless steels need to be cleaned for aesthetic considerations and to preserve corrosion resistance. Any contamination of the surface by dirt, or other material, hinders the natural passivation process and traps corrosive agents, thus reducing corrosion protection. Some form of routine cleaning is necessary to preserve the appearance and integrity of the surface and actually thrive with frequent cleaning. Unlike some other materials, it is impossible to “wear out” stainless steel by excessive cleaning.



Like any surface that is used it can get dirty which can consist of accumulated dust and a variety of contaminates that come from many sources in the laboratory. These contaminates will vary greatly in their effect on appearance and corrosion effects. While some may be easily removed, others may require specific cleaners for effective removal and it may be necessary to identify the contaminate or experiment with various cleaners. Frequently, warm water with or without a gentle detergent is sufficient. Next in order are mild non-scratching abrasive powders and general purpose cleaning solutions. These can be used with warm water, bristle brushes, sponges, or clean cloths.



Stainless steel metalware consumables can be autoclaved and resistant to sanitizing agents for sterile applications.



Types of cleaners and methods



Clean Water and Wipe is the simplest method and stainless surfaces thrive with frequent cleaning. A soft cloth and clean warm water should always be the first choice for mild stains and loose dirt and soils. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Clifton Ultrasonic water baths can be useful providing a cleaning process, using the ultrasonic activity, in a water based detergent solution removing debris and dirt. A final rinse with clean water and a dry wipe will complete the process and eliminate the possibility of water stains.



Solvent Cleaning using Organic solvents can be used to remove fresh debris, oils, chemicals that have not had time to oxidize or decompose. The preferred solvent is one that does not contain chlorine,
such as acetone, methyl alcohol, and mineral spirits. There are many compounded or blended organic cleaners that are commercially available. Cleaning can be accomplished by immersing smaller articles directly into the solvent, wiping with solvent-impregnated cloths, or vapor or spray methods..



Commercial Cleaners many commercial cleaners compounded from phosphates, synthetic detergents, and alkalis are available for the cleaning of severely soiled or stained stainless surfaces. When used with a variety of cleaning methods, these cleaners can safely provide effective cleaning. A neutral cleaner low in chloride is preferred and must be rinsed thoroughly after cleaning. The fact that the label states “for stainless steel” is no guarantee that the product is suitable.



Do not use chloride-containing detergents or carbon steel or wire wool brushes.

No accessories available for this product.

Metalware Supplement

PDF File   Product Literature