How to Choose the Right Rubber Lining

How to Choose the Right Rubber Lining

Selecting the correct rubber lining for your vessel or storage equipment can be complicated.

When choosing a rubber lining, consider several factors, including how well it will protect your vessel or storage tank while providing a level of safety for technicians and others responsible for the corrosive material. Blair Rubber Company offers solutions for a variety of industries and takes each application’s unique challenges into account.

Blair Rubber Co. evaluates the known variables in each rubber lining project. Our experienced team will work with you to identify which rubber lining is best for your application. Before recommending a rubber lining solution, we fully assess the role of the vessel you need to protect from corrosion and/or abrasion. Listed below are factors we weigh to offer you the highest quality rubber lining product.

What Are You Protecting?

It’s no surprise that the first question asked is, “What kind of equipment are you protecting?” Others include, “Is your vessel storing a corrosive chemical or transporting it?” and most importantly, “What material makes up the storage container or vessel?”

The answers to these questions can help narrow down the choices for tank linings that Blair Rubber can offer for a long-lasting solution.

What Are You Storing?

The kind of chemical you are storing or transporting is an important factor in selecting the correct rubber lining solution. Other influences, such as the chemical concentration, whether oils and solvents are present, and temperatures should be considered. For example, hydrochloric acid is a highly corrosive material, but Blair Rubber’s MarflexTM PG70, an amber, soft, high-quality pure gum natural rubber lining, is designed exclusively for concentrated HCl service. No matter the chemical, we have a lining solution that works.

Abrasion Exposure

We must also consider whether the rubber liner will be exposed to abrasions. There are two types of abrasion that may occur, impingement and sliding. Impingement occurs when particles impact the rubber lining at or near 90° angles. Sliding abrasions happen when solids in the commodity run across the rubber in a more parallel fashion. Factors like whether the abrasive particles are wet or dry and what percentage of the solution is comprised of solids should also be considered when picking the right rubber lining solution.

Temperature and Pressures

Two other service conditions that impact your rubber lining are temperature and pressures. When dealing with corrosive or volatile substances, managing minimum and maximum temperatures is vital to keep a stable environment. In many industries, such as the water treatment sector, operating pressure is also an important consideration. Blair Rubber Co. offers high-pressure lining applications to meet the needs of these industries.

Environment

The environment is the final factor Blair Rubber Co. considers when helping companies select the ideal lining for a specific service. Where is the vessel or containment equipment located and will it be in direct sunlight? Location gives our team insights to the area’s weather conditions and potentially damaging elements, such as salt, sand, wind and humidity. Transportation vessels, such as a rail car or barges, also require special considerations. It’s a familiar territory for the team at Blair Rubber Co. For many years, we’ve dissected customers’ situations and recommended solutions that work, even in unfavorable conditions.

No matter the level of complexity in a situation, Blair Rubber Co. is here to help. We’ll work with you to find the right rubber lining solution for your specific application. Contact us to get started.

Select Your Chemical Service

Abrasion - Sliding
n/a
n/a
n/a
None
Abrasion -Impingement
n/a
n/a
n/a
None
Acetic Acid
50
140
60
Acetic Anhydride
100
100
38
Acetone
Any
100
38
None
Acid Mine Water
Any
125
52
Alkaline Mine Water
Any
180
82
Aluminum Chloride
Any
175
79
Aluminum Hydroxide
Any
190
88
Aluminum Nitrate
Any
150
66
Aluminum Phosphate
Any
180
82
Aluminum Sulfate
Any
180
82
Ammonia, (aqueous)
38
190
88
Ammonium Hydroxide
Any
72
22
Ammonium Nitrate
60
140
60
Ammonium Phosphate
Any
140
60
Ammonium Sulfate
Any
190
88
Barium Chloride
Any
180
82
Battery Acid (Sulfuric)
30
140
60
Bleach (NaOCl)
Any
140
60
NONE
NONE
Boric Acid
Any
175
79
Brine
Any
180
82
Calcium Chloride
Any
190
88
Calcium Hydroxide
Any
190
88
Calcium Hypochlorite
Any
125
52
NONE
NONE
Caustic Potash
Any
190
88
Caustic Soda
50
175
79
Chlorine
Any
175
79
NONE
Chloroacetic Acid
10
150
66
NONE
Chromic Acid
10
180
82
NONE
NONE
NONE
Cupric Chloride
Sat
180
82
Copper Cyanide
Sat
160
71
Copper Sulfate
Sat
125
52
Distilled Water
n/a
175
79
Dextrose
Sat
140
60
Diammonium Phosphate
Sat
150
66
Ethyl Alcohol
100
175
79
Ethylene Glycol
100
175
79
Ferric(Iron III) Chloride
Sat
190
88
Ferric(Iron III) Sulfate
Sat
190
88
Ferrous(Iron II) Chloride
Sat
190
88
Ferrous(Iron II) Sulfate
Sat
190
88
Formaldehyde
40
125
52
None
Formic Acid
Sat
125
52
None
Glucose
Sat
125
52
Glycerine
100
125
52
None
Gold Chloride
Sat
175
79
Gypsum Ore
Any
160
71
Gypsum(wet)
Any
180
82
Hexane
100
125
52
None
Hydrobromic Acid
Any
140
60
Hydrochloric Acid
Any
160
79
Sat.
140
60
Any
180
82
Hydrofluoric Acid
70
90
32
None
10
125
52
Hydrofluorosilicic Acid (HFS)
Any
180
82
Hydrogen Peroxide
5
150
66
Hydrogen Sulfide (Wet)
1
72
22
Hypochlorous Acid
10
150
66
None
Isobutyl Alcohol
100
72
22
None
Isopropyl Alcohol
100
72
22
None
Lactic Acid
50
130
54
Lead Acetate
Sat.
140
60
Lead Nitrate
Sat.
150
66
Lead Sulfate
Any
175
79
Lime Hydrated
Sat.
180
82
Lime Water
Sat.
180
82
Lye Solution
Sat.
180
82
Magnesium Chloride
Sat.
190
88
Magnesium Hydroxide
Sat.
170
77
Magnesium Nitrate
Sat.
175
79
Magnesium Sulfate
Sat.
190
88
Maleic Acid
25
72
22
None
Malic Acid
25
72
22
None
Manganese Chloride
Sat.
180
82
Manganese Sulfate
Sat.
180
82
Mercuric Cyanide
Sat.
160
71
Mercury
Any
190
88
Methyl Alcohol
100
72
22
Mineral Spirits
100
72
22
None
Naphtha
100
72
22
None
Natural Gas
100
72
22
None
Nickel Acetate
Sat.
180
88
Nickel Chloride
Sat.
180
88
Nickel Nitrate
Sat.
180
88
Nickel Sulfate
Sat.
180
88
Nitric Acid
20
90
32
None
Oxalic Acid
85
185
85
Petroleum Oils
Any
150
66
None
2
160
71
Any
300
149
None
None
Phosphoric Acid
Any
190
88
Any
260
126
None
Phthalic Acid (Powder)
Any
160
71
Potassium Cuprocyanide
Any
150
66
Potassium Cyanide
Sat.
125
52
Potassium Hydroxide (Caustic Potash)
Sat.
170
77
Potassium Nitrate
Sat.
175
79
Potassium Sulfate
Sat.
150
66
Propyl Alcohol
100
72
22
None
Salicylic Acid
Any
125
52
None
Sea Water
Any
125
52
Sewge Sludge (Activated)
Any
100
38
Silver Nitrate
Sat.
175
79
Soda Alum
Sat.
150
66
Soda Ash
Any
190
88
Sodium Antimonate
Any
150
66
Sodium Bicarbonate
Sat.
200
93
Sodium Borate
Sat.
190
88
Sodium Carbonate
Sat.
200
93
Sodium Chlorite
Sat.
180
88
Sodium Cyanide
Sat.
200
93
Sodium Hydroxide
50
175
79
Sodium Sulfate
Sat.
190
88
Sodium Sulfite
Sat.
140
60
Starch Syrup
Any
125
52
Sucrose Solution
Any
150
66
Sulfonic Acid
50
140
60
None
Sulfur Dioxide
Gas
150
66
None
Sulfuric Acid
20
180
82
50
160
71
None
35
200
93
None
Sulfurous Acid
Sat.
150
66
Trisodium Phosphate
Sat.
190
88
Zinc Acetate
Sat.
125
52
Zinc Chloride
Sat.
180
82
Zinc Cyanide
Sat.
180
82
Zinc Sulfate
Sat.
190
88