How to Calculate Gilsonite Amounts for Various Products

How to Calculate Gilsonite Amounts for Hot Mix Asphalt and Stone Matrix Asphalt

Calculating the appropriate amount of Gilsonite for Hot Mix Asphalt (HMA) and Stone Matrix Asphalt (SMA) involves specific formulas and guidelines. These calculations ensure the mix meets industry standards and desired properties. Here are the steps and key formulas used for both HMA and SMA:

Hot Mix Asphalt (HMA)

1. Determine the Total Weight of the Asphalt Mix

To find the total weight of the asphalt mix, you need the volume and density of the mix.

Total Weight (tons) = Volume (cubic meters) * Density (kg/m^3) / 1000

Example Calculation:

If the volume of the asphalt mix is 200 cubic meters and the density is 2400 kg/m³:

Total Weight (tons) = 200 * 2400 / 1000 = 480 tons

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to the asphalt binder in the range of 5% to 15% by weight. The exact percentage depends on the desired properties of the final mix.

Weight of Gilsonite (kg) = Total Weight of Asphalt Binder (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

Assuming the asphalt binder constitutes 5% of the total mix weight and the desired Gilsonite addition is 10%:

Weight of Asphalt Binder (kg) = 480 * 0.05 * 1000 = 24000 kg

Weight of Gilsonite (kg) = 24000 * (10 / 100) = 2400 kg

Stone Matrix Asphalt (SMA)

1. Determine the Total Weight of the Asphalt Mix

Similar to HMA, calculate the total weight of the SMA mix.

Total Weight (tons) = Volume (cubic meters) * Density (kg/m^3) / 1000

Example Calculation:

If the volume of the SMA mix is 150 cubic meters and the density is 2300 kg/m³:

Total Weight (tons) = 150 * 2300 / 1000 = 345 tons

2. Calculate the Percentage of Gilsonite

The addition rate for Gilsonite in SMA is usually between 5% and 10% by weight of the binder.

Weight of Gilsonite (kg) = Total Weight of Asphalt Binder (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

Assuming the asphalt binder constitutes 6% of the total mix weight and the desired Gilsonite addition is 7%:

Weight of Asphalt Binder (kg) = 345 * 0.06 * 1000 = 20700 kg

Weight of Gilsonite (kg) = 20700 * (7 / 100) = 1449 kg

Summary

The above calculations provide a step-by-step approach to determining the amount of Gilsonite required for both HMA and SMA. By accurately calculating the total weight of the asphalt mix and the percentage of Gilsonite needed, one can ensure that the final product meets the desired specifications and performance standards.

Tables for Quick Reference

HMA Calculation Table:

SMA Calculation Table:

By following these steps and using the provided formulas, you can accurately calculate the required amount of Gilsonite for your specific asphalt mix, ensuring optimal performance and quality.

Accurate Gilsonite Measurement for Printing Inks and High-Gloss Paints

Gilsonite is widely used as an additive in printing inks and high-gloss paints to enhance properties such as gloss, durability, and coverage. Accurate measurement and incorporation of Gilsonite are essential for achieving the desired results. Here are the guidelines and formulas for accurate measurement:

Printing Inks

1. Determine the Total Weight of the Ink Formulation

To find the total weight of the ink formulation, calculate based on the volume and density of the ink.

Total Weight (kg) = Volume (liters) * Density (kg/liter)

Example Calculation:

If the volume of the ink is 50 liters and the density is 1.2 kg/liter:

Total Weight (kg) = 50 * 1.2 = 60 kg

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to printing inks in concentrations ranging from 2% to 5% by weight. For specific applications, refined Gilsonite resin may be used in concentrations of 15% or more.

Weight of Gilsonite (kg) = Total Weight of Ink (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the ink formulation weighs 100 kg and you are adding 5% Gilsonite:

Weight of Gilsonite = 100 * 0.05 = 5 kg

3. Mixing Process

Ensure that Gilsonite is uniformly dispersed in the ink mixture. This can be achieved through proper mixing and heating if necessary, as Gilsonite has a high melting point.

High-Gloss Paints

1. Determine the Total Weight of the Paint Formulation

Calculate the total weight based on the volume and density of the paint.

Total Weight (kg) = Volume (liters) * Density (kg/liter)

Example Calculation:

If the volume of the paint is 100 liters and the density is 1.5 kg/liter:

Total Weight (kg) = 100 * 1.5 = 150 kg

2. Calculate the Percentage of Gilsonite

For high-gloss paints, Gilsonite is added in varying percentages depending on the desired properties. Typical concentrations range from 5% to 10%.

Weight of Gilsonite (kg) = Total Weight of Paint (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the paint formulation weighs 150 kg and you are adding 8% Gilsonite:

Weight of Gilsonite = 150 * 0.08 = 12 kg

3. Mixing Process

Proper mixing is crucial to ensure the uniform distribution of Gilsonite in the paint. Heating may be required to dissolve Gilsonite effectively.

Summary

Accurate measurement of Gilsonite for both printing inks and high-gloss paints involves calculating the total weight of the formulation and the desired percentage of Gilsonite. Proper mixing and heating are essential to ensure uniform distribution and achieve the desired properties.

Tables for Quick Reference

Printing Inks Calculation Table:

High-Gloss Paints Calculation Table:

By following these steps and using the provided formulas, you can accurately measure and incorporate Gilsonite into printing inks and high-gloss paints, ensuring optimal performance and quality.

Determining the Right Gilsonite Proportion for Core Sands and Mold Sands

Gilsonite is commonly used in foundry applications, particularly in mold and core sands, to improve surface finish and reduce defects. Determining the appropriate proportion of Gilsonite in these sands is essential for achieving optimal performance.

Core Sands and Mold Sands

1. Determine the Base Composition

The base composition of core and mold sands typically includes sand, a binder (such as clay or resin), and additives like Gilsonite.

2. Calculate the Percentage of Gilsonite

Gilsonite is usually added to the sand mixture in small proportions to enhance its properties. Commonly used percentages range from 1% to 5% by weight of the total sand mixture.

Weight of Gilsonite (kg) = Total Weight of Sand Mixture (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the sand mixture is 1000 kg and you are adding 3% Gilsonite:

Weight of Gilsonite = 1000 * 0.03 = 30 kg

3. Mixing Process

Ensure that Gilsonite is uniformly mixed with the sand and binder. Proper mixing is crucial to achieve a homogeneous mixture and consistent properties throughout the mold or core.

Summary

Accurate measurement of Gilsonite for both core and mold sands involves calculating the total weight of the sand mixture and the desired percentage of Gilsonite. Proper mixing is essential to ensure uniform distribution and achieve the desired properties.

Tables for Quick Reference

Core and Mold Sands Calculation Table:

By following these steps and using the provided formulas, you can accurately measure and incorporate Gilsonite into core and mold sands, ensuring optimal performance and quality.

Calculating Gilsonite Quantities for Drilling Fluids and Cement Additives in Oil and Gas

Gilsonite, also known as uintaite, is widely used in oil and gas operations for its beneficial properties. Accurate measurement and incorporation are crucial for achieving optimal performance in drilling fluids and cement additives.

Drilling Fluids

1. Determine the Total Volume of Drilling Fluid

The total volume of the drilling fluid can be calculated based on the wellbore dimensions and the planned depth of drilling.

Total Volume (m³) = Wellbore Area (m²) * Planned Depth (m)

Example Calculation:

If the wellbore area is 1.5 m² and the planned depth is 3000 m:

Total Volume (m³) = 1.5 * 3000 = 4500 m³

2. Calculate the Concentration of Gilsonite

Typical Gilsonite concentrations in drilling fluids range from 2% to 10% by weight. The exact percentage depends on the specific requirements of the drilling operation.

Weight of Gilsonite (kg) = Total Weight of Drilling Fluid (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the drilling fluid is 10,000 kg and you are adding 5% Gilsonite:

Weight of Gilsonite = 10,000 * 0.05 = 500 kg

3. Mixing Process

Gilsonite should be uniformly dispersed in the drilling fluid to ensure effective fluid loss control and shale inhibition.

Cement Additives

1. Determine the Total Weight of Cement

Calculate the total weight of the cement slurry required for the wellbore.

Total Weight (kg) = Volume (m³) * Density (kg/m³)

Example Calculation:

If the volume of the cement slurry is 15 m³ and the density is 1600 kg/m³:

Total Weight (kg) = 15 * 1600 = 24,000 kg

2. Calculate the Concentration of Gilsonite

Gilsonite is typically added to cement in concentrations ranging from 0.5% to 5% by weight.

Weight of Gilsonite (kg) = Total Weight of Cement (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the cement slurry is 20,000 kg and you are adding 3% Gilsonite:

Weight of Gilsonite = 20,000 * 0.03 = 600 kg

3. Mixing Process

Proper mixing is essential to ensure uniform distribution of Gilsonite in the cement slurry, enhancing its performance characteristics.

Summary

Accurate measurement of Gilsonite for drilling fluids and cement additives involves calculating the total volume or weight of the fluid or slurry and the desired percentage of Gilsonite. Proper mixing is essential to ensure uniform distribution and achieve the desired properties.

Tables for Quick Reference

Drilling Fluids Calculation Table:

Cement Additives Calculation Table:

By following these steps and using the provided formulas, you can accurately measure and incorporate Gilsonite into drilling fluids and cement additives, ensuring optimal performance and quality in oil and gas operations.

Measuring Gilsonite for Concrete Admixtures and Pavement Sealers

Gilsonite is used in concrete admixtures and pavement sealers to enhance various properties such as durability, water resistance, and appearance. Accurate measurement and incorporation are crucial for achieving the desired results.

Concrete Admixtures

1. Determine the Total Volume of Concrete

To calculate the total volume of the concrete mixture, use the dimensions of the structure.

Total Volume (m³) = Length (m) * Width (m) * Height (m)

Example Calculation:

If the dimensions of the concrete mixture are 10 m in length, 5 m in width, and 0.2 m in height:

Total Volume (m³) = 10 * 5 * 0.2 = 10 m³

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to concrete in concentrations ranging from 0.5% to 2% by weight of the cementitious material.

Weight of Gilsonite (kg) = Total Weight of Cement (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of cement in the mixture is 500 kg and you are adding 1% Gilsonite:

Weight of Gilsonite = 500 * 0.01 = 5 kg

3. Mixing Process

Ensure thorough mixing to achieve a uniform distribution of Gilsonite in the concrete mix.

Pavement Sealers

1. Determine the Total Volume of Sealer

Calculate the total volume of the pavement sealer required based on the area and the application rate.

Total Volume (liters) = Area (m²) * Application Rate (liters/m²)

Example Calculation:

If the area to be sealed is 200 m² and the application rate is 0.3 liters/m²:

Total Volume (liters) = 200 * 0.3 = 60 liters

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to pavement sealers in concentrations ranging from 5% to 15% by weight.

Weight of Gilsonite (kg) = Total Weight of Sealer (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the sealer is 1000 kg and you are adding 10% Gilsonite:

Weight of Gilsonite = 1000 * 0.10 = 100 kg

3. Mixing Process

Proper mixing is crucial to ensure uniform distribution of Gilsonite in the sealer.

Summary

Accurate measurement of Gilsonite for both concrete admixtures and pavement sealers involves calculating the total volume or weight of the mixture and the desired percentage of Gilsonite. Proper mixing is essential to ensure uniform distribution and achieve the desired properties.

Tables for Quick Reference

Concrete Admixtures Calculation Table:

Pavement Sealers Calculation Table:

By following these steps and using the provided formulas, you can accurately measure and incorporate Gilsonite into concrete admixtures and pavement sealers, ensuring optimal performance and quality.

Precise Calculation of Gilsonite for Rubber Compounds and Industrial Sealants

Gilsonite is used in rubber compounds and industrial sealants to enhance properties such as durability, tensile strength, and resistance to environmental factors. Accurate measurement and incorporation are crucial for achieving the desired results.

Rubber Compounds

1. Determine the Total Weight of the Rubber Compound

Calculate the total weight of the rubber compound formulation.

Total Weight (kg) = ∑ Weight of each component (kg)

Example Calculation:

If the rubber compound formulation consists of various components with weights summing up to 1000 kg:

Total Weight (kg) = 1000 kg

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to rubber compounds in concentrations ranging from 2% to 10% by weight.

Weight of Gilsonite (kg) = Total Weight of Rubber Compound (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the rubber compound is 1000 kg and you are adding 5% Gilsonite:

Weight of Gilsonite = 1000 * 0.05 = 50 kg

3. Mixing Process

Ensure thorough mixing of Gilsonite with the rubber compound to achieve uniform distribution and optimal performance.

Industrial Sealants

1. Determine the Total Volume of the Sealant

Calculate the total volume of the sealant formulation based on the area to be sealed and the application thickness.

Total Volume (liters) = Area to be Sealed (m²) * Application Thickness (m)

Example Calculation:

If the area to be sealed is 100 m² and the application thickness is 0.01 m (10 mm):

Total Volume (liters) = 100 * 0.01 = 1 m³ = 1000 liters

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to sealants in concentrations ranging from 3% to 15% by weight.

Weight of Gilsonite (kg) = Total Weight of Sealant (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the sealant is 500 kg and you are adding 8% Gilsonite:

Weight of Gilsonite = 500 * 0.08 = 40 kg

3. Mixing Process

Proper mixing is essential to ensure uniform distribution of Gilsonite in the sealant, enhancing its performance characteristics.

Summary

Accurate measurement of Gilsonite for both rubber compounds and industrial sealants involves calculating the total weight of the formulation and the desired percentage of Gilsonite. Proper mixing is essential to ensure uniform distribution and achieve the desired properties.

Tables for Quick Reference

Rubber Compounds Calculation Table:

Industrial Sealants Calculation Table:

By following these steps and using the provided formulas, you can accurately measure and incorporate Gilsonite into rubber compounds and industrial sealants, ensuring optimal performance and quality.

Gilsonite Amount Calculation for Carbon Black and Specialty Chemicals in the Chemical Industry

Gilsonite is used in the chemical industry for various applications, including enhancing the properties of carbon black and specialty chemicals. Accurate measurement and incorporation are crucial for achieving the desired results.

Carbon Black

Gilsonite is often used as a carbon source in the production of carbon black, which is used in rubber and other industrial applications. The following steps outline the calculation process:

1. Determine the Total Weight of the Carbon Black Mixture

Calculate the total weight of the carbon black formulation.

Total Weight (kg) = ∑ Weight of each component (kg)

Example Calculation:

If the carbon black mixture consists of various components with weights summing up to 1000 kg:

Total Weight (kg) = 1000 kg

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to carbon black mixtures in concentrations ranging from 5% to 20% by weight.

Weight of Gilsonite (kg) = Total Weight of Carbon Black Mixture (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the carbon black mixture is 1000 kg and you are adding 10% Gilsonite:

Weight of Gilsonite = 1000 * 0.10 = 100 kg

3. Mixing Process

Ensure thorough mixing of Gilsonite with the carbon black to achieve uniform distribution and optimal performance.

Specialty Chemicals

Gilsonite is also used in the formulation of specialty chemicals to enhance properties such as durability, stability, and performance. Here’s how to measure the appropriate quantities of Gilsonite for specialty chemicals:

1. Determine the Total Volume of the Specialty Chemical

Calculate the total volume of the specialty chemical formulation.

Total Volume (liters) = ∑ Volume of each component (liters)

Example Calculation:

If the specialty chemical formulation consists of various components with volumes summing up to 200 liters:

Total Volume (liters) = 200 liters

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to specialty chemicals in concentrations ranging from 1% to 15% by weight.

Weight of Gilsonite (kg) = Total Weight of Specialty Chemical (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the specialty chemical is 500 kg and you are adding 8% Gilsonite:

Weight of Gilsonite = 500 * 0.08 = 40 kg

3. Mixing Process

Proper mixing is essential to ensure uniform distribution of Gilsonite in the specialty chemical formulation.

Summary

Accurate measurement of Gilsonite for both carbon black and specialty chemicals involves calculating the total weight of the formulation and the desired percentage of Gilsonite. Proper mixing is essential to ensure uniform distribution and achieve the desired properties.

Tables for Quick Reference

Carbon Black Calculation Table:

Specialty Chemicals Calculation Table:

By following these steps and using the provided formulas, you can accurately measure and incorporate Gilsonite into carbon black and specialty chemicals, ensuring optimal performance and quality.

Measuring Gilsonite for Roof Coatings and Waterproof Membranes

Gilsonite is widely used in roof coatings and waterproof membranes to enhance properties such as durability, waterproofing, and adhesive strength. Here’s how to measure and incorporate the appropriate quantities of Gilsonite for these applications:

Roof Coatings

1. Determine the Total Volume of the Roof Coating

Calculate the total volume of the roof coating required based on the area to be covered and the application thickness.

Total Volume (liters) = Area (m²) * Application Thickness (m)

Example Calculation:

If the area to be covered is 500 m² and the application thickness is 0.002 m (2 mm):

Total Volume (liters) = 500 * 0.002 = 1 m³ = 1000 liters

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to roof coatings in concentrations ranging from 5% to 15% by weight.

Weight of Gilsonite (kg) = Total Weight of Roof Coating (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the roof coating is 1000 kg and you are adding 10% Gilsonite:

Weight of Gilsonite = 1000 * 0.10 = 100 kg

3. Mixing Process

Ensure thorough mixing of Gilsonite with the roof coating material to achieve uniform distribution and optimal performance.

Waterproof Membranes

1. Determine the Total Volume of the Waterproof Membrane

Calculate the total volume of the waterproof membrane required based on the area to be covered and the application thickness.

Total Volume (liters) = Area (m²) * Application Thickness (m)

Example Calculation:

If the area to be covered is 300 m² and the application thickness is 0.003 m (3 mm):

Total Volume (liters) = 300 * 0.003 = 0.9 m³ = 900 liters

2. Calculate the Percentage of Gilsonite

Gilsonite is typically added to waterproof membranes in concentrations ranging from 5% to 20% by weight.

Weight of Gilsonite (kg) = Total Weight of Waterproof Membrane (kg) * (Percentage of Gilsonite / 100)

Example Calculation:

If the total weight of the waterproof membrane is 2000 kg and you are adding 8% Gilsonite:

Weight of Gilsonite = 2000 * 0.08 = 160 kg

3. Mixing Process

Proper mixing is crucial to ensure uniform distribution of Gilsonite in the waterproof membrane formulation.

Summary

Accurate measurement of Gilsonite for both roof coatings and waterproof membranes involves calculating the total volume or weight of the mixture and the desired percentage of Gilsonite. Proper mixing is essential to ensure uniform distribution and achieve the desired properties.

Tables for Quick Reference

Roof Coatings Calculation Table:

Waterproof Membranes Calculation Table:

By following these steps and using the provided formulas, you can accurately measure and incorporate Gilsonite into roof coatings and waterproof membranes, ensuring optimal performance and quality.

Conclusion

To calculate Gilsonite amounts accurately, this guide provides essential formulas and guidelines for various applications including Hot Mix Asphalt, Stone Matrix Asphalt, printing inks, high-gloss paints, core sands, mold sands, drilling fluids, cement additives, rubber compounds, industrial sealants, carbon black, specialty chemicals, roof coatings, and waterproof membranes. Petro Naft is a leading producer, supplier, and wholesaler of high-quality Gilsonite. We invite you to visit our dedicated natural bitumen page and contact us for purchase inquiries.

Top FAQs: Expert Answers to Your Common Queries

1. How to calculate Gilsonite amounts for Hot Mix Asphalt (HMA)? To calculate Gilsonite amounts for HMA, determine the total weight of the asphalt mix using the formula Total Weight (tons) = Volume (m³) * Density (kg/m³) / 1000. Next, calculate the Gilsonite weight using Weight of Gilsonite (kg) = Total Weight of Asphalt Binder (kg) * (Percentage of Gilsonite / 100). For example, if the mix weighs 480 tons and you are adding 10% Gilsonite, the Gilsonite weight would be 2400 kg.
2. What is the process for incorporating Gilsonite into printing inks? First, determine the total weight of the ink formulation using Total Weight (kg) = Volume (liters) * Density (kg/liter). Then, calculate the Gilsonite weight with Weight of Gilsonite (kg) = Total Weight of Ink (kg) * (Percentage of Gilsonite / 100). For example, for a 100 kg ink formulation with 5% Gilsonite, the required Gilsonite is 5 kg. Ensure thorough mixing for uniform dispersion.
3. How do you measure Gilsonite for Stone Matrix Asphalt (SMA)? Measure the total weight of the SMA mix using Total Weight (tons) = Volume (m³) * Density (kg/m³) / 1000. Calculate the Gilsonite amount with Weight of Gilsonite (kg) = Total Weight of Asphalt Binder (kg) * (Percentage of Gilsonite / 100). For a 345-ton mix with 7% Gilsonite, the Gilsonite weight is 1449 kg.
4. What is the role of Gilsonite in high-gloss paints and how is it measured? Gilsonite enhances gloss, hardness, and durability in high-gloss paints. Calculate the total weight of the paint using Total Weight (kg) = Volume (liters) * Density (kg/liter). Then, calculate the Gilsonite amount with Weight of Gilsonite (kg) = Total Weight of Paint (kg) * (Percentage of Gilsonite / 100). For a 150 kg paint mix with 8% Gilsonite, the required Gilsonite is 12 kg.
5. How to determine the right Gilsonite proportion for core sands in foundry applications? Determine the base composition and calculate the Gilsonite percentage using Weight of Gilsonite (kg) = Total Weight of Sand Mixture (kg) * (Percentage of Gilsonite / 100). For a 1000 kg sand mixture with 3% Gilsonite, you need 30 kg. Mix thoroughly to ensure uniform distribution.
6. How to calculate Gilsonite amounts for drilling fluids in oil and gas? Calculate the total volume of the drilling fluid using Total Volume (m³) = Wellbore Area (m²) * Planned Depth (m). Then, calculate the Gilsonite amount with Weight of Gilsonite (kg) = Total Weight of Drilling Fluid (kg) * (Percentage of Gilsonite / 100). For a 10,000 kg drilling fluid with 5% Gilsonite, you need 500 kg.
7. What is the method for measuring Gilsonite in cement additives? Determine the total weight of the cement slurry using Total Weight (kg) = Volume (m³) * Density (kg/m³). Calculate the Gilsonite weight with Weight of Gilsonite (kg) = Total Weight of Cement (kg) * (Percentage of Gilsonite / 100). For a 20,000 kg cement slurry with 3% Gilsonite, you need 600 kg.
8. How is Gilsonite measured for rubber compounds? Calculate the total weight of the rubber compound using Total Weight (kg) = ∑ Weight of each component (kg). Then, calculate the Gilsonite amount with Weight of Gilsonite (kg) = Total Weight of Rubber Compound (kg) * (Percentage of Gilsonite / 100). For a 1000 kg compound with 5% Gilsonite, the required amount is 50 kg.
9. How to measure Gilsonite for industrial sealants? Calculate the total volume of the sealant using Total Volume (liters) = Area to be Sealed (m²) * Application Thickness (m). Then, calculate the Gilsonite amount with Weight of Gilsonite (kg) = Total Weight of Sealant (kg) * (Percentage of Gilsonite / 100). For a 500 kg sealant with 8% Gilsonite, the required amount is 40 kg.
10. How is Gilsonite measured for roof coatings and waterproof membranes? For roof coatings, calculate the total volume using Total Volume (liters) = Area (m²) * Application Thickness (m). Then, calculate the Gilsonite amount with Weight of Gilsonite (kg) = Total Weight of Roof Coating (kg) * (Percentage of Gilsonite / 100). For a 1000 kg coating with 10% Gilsonite, you need 100 kg. For waterproof membranes, use the same formula. For a 2000 kg membrane with 8% Gilsonite, you need 160 kg.