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Laboratory Drying Oven, Digimatic

(Aggregate & Rock Testing Equipments)

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Laboratory Drying Oven

70-640L, 140/240L, 420/620L, Digital Drying Oven

Description

Standard: ASTM C127/C136/D558/D698/D1559,EN 932-5/1097-5, BS 1377/1924

Laboratory Drying Oven, Digitmatic (70-640L)

Laboratory Drying Oven, Digimatic (E-Version)

Digital Laboratory Drying Oven is used to dry samples or materials to remove moisture and solvents. These ovens provide a controlled environment with precise temperature and timer for drying processes without causing damage to the samples, generating heat, and a ventilation system to remove moisture-laden air.

A Digital Laboratory Drying Oven is the equipment used in scientific and industrial settings to remove moisture or solvents from samples or materials through the application of heat. These ovens are designed to provide a controlled temperature environment typically ranging from ambient temperature up to several hundred degrees Celsius. They are commonly used in various applications such as drying glassware, sample preparation, sterilization, and curing of materials like polymers or composites. Digital Laboratory Drying Ovens come in different sizes and configurations to accommodate various sample sizes and requirements. They are essential tools in research laboratories, manufacturing facilities, and quality control processes.

The NL Scientific Digimatic Drying Oven is designed for sample drying work. Available in various sizes (70 Litres, 136 Litres, 225 Litres, 420 Litres, 640 Litres Capacity), this series of ovens is equipped with adjustable shelves. The high-quality cold rolling steel case, baked enamel finish exterior, and corrosion-resistant interior make this a sturdy, all-purpose laboratory oven.

Laboratory Drying Oven, Digitmatic (140/240L)

Laboratory Drying Oven is used to dry samples or materials to remove moisture and solvents. These ovens provide a controlled environment with precise temperature and timer for drying processes without causing damage to the samples, generating heat, and a ventilation system to remove moisture-laden air.

The design of a laboratory drying oven includes a chamber where samples are placed, heating elements to generate heat, and a ventilation system to remove moisture-laden air. NL Scientific Laboratory Drying Oven comes with digital controls for setting and monitoring temperature, timers for precise operation, and safety features to prevent overheating or accidents.

Laboratory Drying Ovens find applications in chemistry, biology, pharmaceuticals, food processing, materials science, and environmental testing. They are used for tasks such as drying glassware, sterilizing equipment, preparing samples for analysis, curing coatings or adhesives, and conducting stability tests on materials.

The NL Scientific Laboratory Drying Ovens exterior is a general-purpose laboratory used such as soil, concrete, asphalt, and aggregate. Available in various sizes (140 Litres, 240 Litres Capacity). The internal frame is made of stainless steel sheet and the external casing is coated with hard-wearing paint & insulated with thick mineral wool. The heat generated by high precision digital controller & temperature range from RT + 10°C to 250°C. All capacity come with a fan circulation blower. The oven comes with a glass viewing door surrounding casing obtained with 50 mm thick fiberglass & steel shelves.

Laboratory Drying Oven, Digitmatic (420/620L)

Laboratory Drying Oven is used to dry samples or materials to remove moisture and solvents. These ovens provide a controlled environment with precise temperature and timer for drying processes without causing damage to the samples, generating heat, and a ventilation system to remove moisture-laden air.

The design of a laboratory drying oven includes a chamber where samples are placed, heating elements to generate heat, and a ventilation system to remove moisture-laden air. NL Scientific Laboratory Drying Oven comes with digital controls for setting and monitoring temperature, timers for precise operation, and safety features to prevent overheating or accidents.

Laboratory Drying Ovens find applications in chemistry, biology, pharmaceuticals, food processing, materials science, and environmental testing. They are used for tasks such as drying glassware, sterilizing equipment, preparing samples for analysis, curing coatings or adhesives, and conducting stability tests on materials.

The NL Scientific Laboratory Drying Ovens exterior is a general-purpose laboratory used such as soil, concrete, asphalt, and aggregate. Available in various sizes (420 Litres, 620 Litres Capacity). The internal frame is made of stainless steel sheet and the external casing is coated with hard-wearing paint & insulated with thick mineral wool. The heat generated by high precision digital controller & temperature range from RT + 10°C to 250°C. All capacity come with a fan circulation blower. The oven comes with a glass viewing door surrounding casing obtained with 50 mm thick fiberglass & steel shelves.

Digital Drying Oven

The Digimatic Control Drying Oven exterior is a general purpose laboratory used such as soil, concrete, asphalt and aggregate. Internal frame made of stainless steel sheet and external casing coated with hard wearing paint & insulated with thick mineral wool. Heat generated by high precision digital controller & temperature range from RT + 10。C to 250。C. All capacity come with fan circulation blower. The oven come with glass viewing door surrounding casing is obtained with 50 mm thick fiber glass & steel shelves.

Features

Laboratory Drying Oven, Digitmatic (70-640L)

Features of Laboratory Drying Oven, Digimatic (E-Version)

Circulation Air Flow System:

This feature involves a system that circulates air within the drying oven chamber. Circulation ensures even distribution of heat throughout the chamber, resulting in uniform drying of samples. It helps to eliminate hot spots and ensures consistent drying across all parts of the oven, which is crucial for obtaining accurate and reliable results.

PID Electronic Control Unit:

PID stands for Proportional, Integral, and Derivative, which are control algorithms used in feedback systems. The PID electronic control unit in your drying oven provides precise and stable temperature control. It continuously monitors the temperature inside the oven and adjusts heating elements accordingly to maintain the set temperature with minimal fluctuations. This ensures optimal drying conditions and enhances the reproducibility of experiments or processes.

Manually Air Outlet Chamber:

The manually adjustable air outlet chamber allows users to control the ventilation or airflow within the drying oven. By adjusting the outlet, users can regulate the rate at which moist air is expelled from the chamber. This feature provides flexibility in managing drying conditions, especially for sensitive samples or processes that require specific airflow rates to achieve desired results.

Quality Door Rubber Gasket Seal:

The door rubber gasket seal is an essential component that ensures an airtight seal when the oven door is closed. It prevents heat loss and maintains the internal temperature stability of the drying oven. A high-quality gasket seal also helps to prevent the ingress of dust, moisture, or contaminants from the surrounding environment, thereby protecting samples from potential contamination or external influences during the drying process.

Laboratory Drying Oven, Digitmatic (140/240L)

Features of Laboratory Drying Oven, Digitmatic (140/240L)

  • Circulation airflow system: This feature ensures the even distribution of heat throughout the oven, which helps in maintaining uniform drying conditions for all samples regardless of their placement within the oven. It prevents hot spots and ensures efficient drying.
  • Built-in ventilation point: This feature allows for the removal of fumes or gases generated during the drying process, ensuring a safe working environment and preventing the accumulation of potentially harmful substances within the oven.
  • Digital LCD Screen: The digital screen provides easy-to-read information and control over the drying process. Here’s how each feature on the screen works:
    • Time setting: You can set the desired duration for the drying process, allowing for precise control over the drying time.
    • Alarm alert: The oven can alert you when the drying process is complete or if there are any issues or abnormalities during operation, ensuring that you are promptly informed of any deviations from the set parameters.
    • Real-time clock display: This feature shows the current time, providing convenient timekeeping functionality for scheduling and monitoring experiments or processes.
    • Periodic setting: This feature allows you to set periodic intervals for the drying process, useful for applications where samples require intermittent drying or for conducting experiments with specific time-dependent parameters.

Laboratory Drying Oven, Digitmatic (420/620L)

Features of Laboratory Drying Oven, Digitmatic (420/620L)

  • Circulation airflow system: This feature ensures the even distribution of heat throughout the oven, which helps in maintaining uniform drying conditions for all samples regardless of their placement within the oven. It prevents hot spots and ensures efficient drying.
  • Built-in ventilation point: This feature allows for the removal of fumes or gases generated during the drying process, ensuring a safe working environment and preventing the accumulation of potentially harmful substances within the oven.
  • Digital LCD Screen: The digital screen provides easy-to-read information and control over the drying process. Here’s how each feature on the screen works:
    • Time setting: You can set the desired duration for the drying process, allowing for precise control over the drying time.
    • Alarm alert: The oven can alert you when the drying process is complete or if there are any issues or abnormalities during operation, ensuring that you are promptly informed of any deviations from the set parameters.
    • Real-time clock display: This feature shows the current time, providing convenient timekeeping functionality for scheduling and monitoring experiments or processes.
    • Periodic setting: This feature allows you to set periodic intervals for the drying process, useful for applications where samples require intermittent drying or for conducting experiments with specific time-dependent parameters.

Tech Spec

Laboratory Drying Oven, Digitmatic (70-640L)

Model Number NL 1017 GI / 001 NL 1017 GI / 002 NL 1017 GI / 003 NL 1017 GI / 004 NL 1017 GI / 005
Capacity 70 Litres 136 Litres 225 Litres 420 Litres 640 Litres
Shelve w/ Bracket Supplied 2pcs 2pcs 3pcs 3pcs 3pcs
Temperature Uniformity ±5°C
Temp. Range RT+5°C – 250°C
Approx. Weight Not Available
Chamber Material Galvanized Steel
Number of Heater 1.3 kW x 1 No. 2.5 kW x 1 No. 1.8 kW x 2 Nos. 2.0 kW x 2 Nos. 1.8 kW x 3 Nos.
Interior Dimension (mm) 450(W) x 350(D) x 450(H) 550(W) x 450(D) x 550(H) 600(W) x 500(D) x 750(H) 550(W) x 600(D) x 1300(H) 800(W) x 800(D) x 1000(H)
Exterior Dimension (mm) 730(W) x 470(D) x 670(H) 830(W) x 570(D) x 770(H) 880(W) x 620(D) x 970(H) 710(W) x 720(D) x 1730(H) 920(W) x 1080(D) x 1220(H)
Power 220~240 V, 1 Ph, 1.3 kW, 8 A, 50/60 Hz 220~240 V, 1 Ph, 2.5 kW, 14 A, 50/60 Hz 220~240 V, 1 Ph, 2.5 kW, 14 A, 50/60 Hz 220~240 V, 1 Ph, 4.0 kW, 19 A, 50/60 Hz 220~240 V, 1 Ph, 5.4 kW, 26 A, 50/60 Hz
Approx. Weight 42 kg 57 kg 76 kg 115 kg 114 kg
*1 Copy of Manual Instruction
Model Number Parts Description
NL 1017 GI / 001 – A001 70 Litres Shelves (Galvanized Steel)
NL 1017 GI / 002 – A001 136 Litres Shelves (Galvanized Steel)
NL 1017 GI / 003 – A001 225 Litres Shelves (Galvanized Steel)
NL 1017 GI / 004 – A001 420 Litres Shelves (Galvanized Steel)
NL 1017 GI / 005 – A001 640 Litres Shelves (Galvanized Steel)

Laboratory Drying Oven, Digitmatic (140/240L)

Model NumberNL 1017 SS / 002NL 1017 SS / 003
Capacity140L240L
Temp. VariationRT+10~250 °C
Temp. Fluctuation±5.0 °C
Ambient Temperature+5~40 °C
Number of Heaters2kW x 1 No.1.5kW x 2 Nos.
Number of Shelves2 pcs3pcs
Load per Shelve25kg For Standard Configuration
Interior Dimension (mm)550(W) × 450(D) × 580(H)600(W) × 500(D) × 880(H)
Exterior Dimension (mm)670(W) × 610(D) × 950(H)720(W) × 660(D) × 1170(H)
Power220~240 V, 2 kW, 12 A, 1 Ph, 50/60 Hz220~240 V, 3 kW, 13 A, 1 Ph, 50/60 Hz

*1 Copy of Manual Instruction for each model

Optional Accessories

Model Number Parts Description
NL 1017 SS / 002 – P001 140 Litres Shelves (Galvanized Steel)
NL 1017 SS / 003 – P001 240 Litres Shelves (Galvanized Steel)
NL 1017 SS – A001 Adjustable / Movable Trolley Base

Laboratory Drying Oven, Digitmatic (420/620L)

Model Number NL 1017 SS / 004 NL 1017 SS / 005
Capacity 420L 620L
Temp. Variation RT+10-250 °C
Temp. Fluctuation ±5.0 °C
Ambient Temperature +5-40 °C
Laughing Bacchus Winecellars Yoshi Tannamuri Canada
Magazzini Alimentari Riuniti Giovanni Rovelli Italy
Number of Heaters 2kW x 2 Nos. 2kW x 3 Nos.
Number of Shelves 4pcs 5pcs
Load per Shelve 25/kg 3 For Standard Configuration
Interior Dimension (mm) 600(W) × 550(D) × 1300(H) 700(W) × 600(D) × 1500(H)
Exterior Dimension (mm) 720(W) × 710(D) × 1730(H) 820(W) × 760(D) × 1930(H)
Power 220~240 V, 1 Ph, 4 kW, 19 A, 50/60 Hz 220~240 V, 1 Ph, 6 kW, 26 A, 50/60 Hz
Approx. Weight 115 kg 148 kg
Timer Range 999 Hours
*1 Copy of Manual Instruction for each model

Optional Accessories

Model Number Parts Description
NL 1017 SS / 004 – P001 420 Litres Shelves (Galvanized Steel)
NL 1017 SS / 005 – P001 620 Litres Shelves (Galvanized Steel)
NL 1017 SS – A001 Adjustable / Movable Trolley Base

Digital Drying Oven

Model Number NL 1017 X / 007
Capacity 65L
Voltage 220 V, 1 ph, 50 / 60 Hz
Temp. Variation RT+10-250 °C
Temp. Fluctuation ±5.0 °C
Temp. Resolution 0.1 °C
Ambient Temperature +5-40 °C
Heating Power 2.0 kW, 7.5 A
Interior Dimension L x W x H 400 x 360 x 450 mm
Exterior Dimension L x W x H 550 x 550 x 840 mm
Packaging Dimension L x W x H 610 x 610 x 905 mm
Load Per Shelve 25 kg / shelve ( c/w 2nos shelves )
Gross / Net Weight 47 / 61 kg
Timing Range 1-9999 min

Standard

Laboratory Drying Oven, Digitmatic  (70-640L)

  • ASTM C127/C136/D558/D698/D1559: ASTM International (formerly known as the American Society for Testing and Materials) develops and publishes voluntary consensus technical standards for a wide range of materials, products, systems, and services. The standards you listed are related to testing procedures for aggregates (C127, C136), moisture-density relations of soils (D558, D698), and asphalt mixtures (D1559). These standards provide guidelines for conducting tests to determine specific properties and characteristics of these materials, ensuring quality control and consistency in construction projects.
  • EN 932-5/1097-5: EN refers to standards developed by the European Committee for Standardization (CEN). EN 932-5 specifies the methods for the determination of the water content of soil and rock by drying in an oven. EN 1097-5 provides procedures for the determination of the aggregate crushing value of coarse aggregates.
  • BS 1377/1924: BS stands for British Standards, which are developed by the British Standards Institution (BSI). BS 1377 consists of a series of standards related to testing procedures for soils for civil engineering purposes. These standards cover various tests such as the determination of particle size distribution, moisture content, density, compaction, permeability, and shear strength of soils. BS 1924 deals with methods of testing for stabilized soils.

 

 

Laboratory Drying Oven, Digitmatic  (140/240L)

  • ASTM C127/C136/D558/D698/D1559: ASTM International (formerly known as the American Society for Testing and Materials) develops and publishes voluntary consensus technical standards for a wide range of materials, products, systems, and services. The standards you listed are related to testing procedures for aggregates (C127, C136), moisture-density relations of soils (D558, D698), and asphalt mixtures (D1559). These standards provide guidelines for conducting tests to determine specific properties and characteristics of these materials, ensuring quality control and consistency in construction projects.
  • EN 932-5/1097-5: EN refers to standards developed by the European Committee for Standardization (CEN). EN 932-5 specifies the methods for the determination of the water content of soil and rock by drying in an oven. EN 1097-5 provides procedures for the determination of the aggregate crushing value of coarse aggregates.
  • BS 1377/1924: BS stands for British Standards, which are developed by the British Standards Institution (BSI). BS 1377 consists of a series of standards related to testing procedures for soils for civil engineering purposes. These standards cover various tests such as the determination of particle size distribution, moisture content, density, compaction, permeability, and shear strength of soils. BS 1924 deals with methods of testing for stabilized soils.

 

 


Laboratory Drying Oven, Digitmatic  (420/620L)

  • ASTM C127/C136/D558/D698/D1559: ASTM International (formerly known as the American Society for Testing and Materials) develops and publishes voluntary consensus technical standards for a wide range of materials, products, systems, and services. The standards you listed are related to testing procedures for aggregates (C127, C136), moisture-density relations of soils (D558, D698), and asphalt mixtures (D1559). These standards provide guidelines for conducting tests to determine specific properties and characteristics of these materials, ensuring quality control and consistency in construction projects.
  • EN 932-5/1097-5: EN refers to standards developed by the European Committee for Standardization (CEN). EN 932-5 specifies the methods for the determination of the water content of soil and rock by drying in an oven. EN 1097-5 provides procedures for the determination of the aggregate crushing value of coarse aggregates.
  • BS 1377/1924: BS stands for British Standards, which are developed by the British Standards Institution (BSI). BS 1377 consists of a series of standards related to testing procedures for soils for civil engineering purposes. These standards cover various tests such as the determination of particle size distribution, moisture content, density, compaction, permeability, and shear strength of soils. BS 1924 deals with methods of testing for stabilized soils.

Test Procedure

Laboratory Drying Oven, Digitmatic (70-640L)

  • Preparation of the sample: Ensure that the sample is properly prepared according to the requirements of the specific test or analysis being conducted. This may involve obtaining a representative sample, reducing it to an appropriate size, and any necessary pre-treatment.
  • Preheating the drying oven: Preheat the drying oven to the desired temperature as specified in the testing standard or procedure. This allows the oven to reach thermal equilibrium and ensures accurate and consistent drying conditions.
  • Weighing the sample: Weigh the sample using an accurate balance and record its initial mass. This measurement serves as the baseline for determining the moisture content or any changes in mass during the drying process.
  • Placing the sample in the drying oven: Place the sample in a suitable container or tray, ensuring that it is spread out evenly and not piled up to ensure uniform drying. Place the container with the sample inside the drying oven.
  • Setting the drying parameters: Set the desired drying temperature and time parameters on the oven’s control panel. These parameters may vary depending on the type of sample and the testing standard being followed. Start the drying process by activating the oven. The circulation airflow system within the oven helps maintain uniform heat distribution and efficient drying of the sample.
  • Initiating the drying process: Start the drying process by activating the oven. The circulation airflow system within the oven helps maintain uniform heat distribution and efficient drying of the sample.
  • Monitoring the drying process: Monitor the drying process closely, observing any changes in the appearance or condition of the sample. Periodically check the sample’s moisture content or mass at specified intervals to track the progress of drying.
  • Endpoint determination: Continue the drying process until the sample reaches a constant mass or until the desired moisture content is achieved. This is typically indicated by consecutive weighings showing no further decrease in mass or a specific level of moisture content as required by the testing standard.
  • Cooling and final weighing: Once the drying process is complete, allow the sample to cool inside the oven to room temperature before removing it. Weigh the dried sample again to determine its final mass.
  • Calculation of results: Calculate the moisture content or any other desired parameters based on the initial and final mass measurements of the sample. Follow the specific formula or calculation method outlined in the testing standard or procedure being followed.
  • Reporting results: Record all relevant data, including the initial and final mass of the sample, drying parameters, and calculated results. Prepare a test report documenting the procedure followed and the obtained results for future reference or analysis.

Laboratory Drying Oven, Digitmatic (140/240L)

  • Preparation of the sample: Ensure that the sample is properly prepared according to the requirements of the specific test or analysis being conducted. This may involve obtaining a representative sample, reducing it to an appropriate size, and any necessary pre-treatment.
  • Preheating the drying oven: Preheat the drying oven to the desired temperature as specified in the testing standard or procedure. This allows the oven to reach thermal equilibrium and ensures accurate and consistent drying conditions.
  • Weighing the sample: Weigh the sample using an accurate balance and record its initial mass. This measurement serves as the baseline for determining the moisture content or any changes in mass during the drying process.
  • Placing the sample in the drying oven: Place the sample in a suitable container or tray, ensuring that it is spread out evenly and not piled up to ensure uniform drying. Place the container with the sample inside the drying oven.
  • Setting the drying parameters: Set the desired drying temperature and time parameters on the oven’s control panel. These parameters may vary depending on the type of sample and the testing standard being followed.
  • Initiating the drying process: Start the drying process by activating the oven. The circulation airflow system within the oven helps maintain uniform heat distribution and efficient drying of the sample.
  • Monitoring the drying process: Monitor the drying process closely, observing any changes in the appearance or condition of the sample. Periodically check the sample’s moisture content or mass at specified intervals to track the progress of drying.
  • Endpoint determination: Continue the drying process until the sample reaches a constant mass or until the desired moisture content is achieved. This is typically indicated by consecutive weighings showing no further decrease in mass or a specific level of moisture content as required by the testing standard.
  • Cooling and final weighing: Once the drying process is complete, allow the sample to cool inside the oven to room temperature before removing it. Weigh the dried sample again to determine its final mass.
  • Calculation of results: Calculate the moisture content or any other desired parameters based on the initial and final mass measurements of the sample. Follow the specific formula or calculation method outlined in the testing standard or procedure being followed.
  • Reporting results: Record all relevant data, including the initial and final mass of the sample, drying parameters, and calculated results. Prepare a test report documenting the procedure followed and the obtained results for future reference or analysis.

Laboratory Drying Oven, Digitmatic (420/620L)

  • Preparation of the sample: Ensure that the sample is properly prepared according to the requirements of the specific test or analysis being conducted. This may involve obtaining a representative sample, reducing it to an appropriate size, and any necessary pre-treatment.
  • Preheating the drying oven: Preheat the drying oven to the desired temperature as specified in the testing standard or procedure. This allows the oven to reach thermal equilibrium and ensures accurate and consistent drying conditions.
  • Weighing the sample: Weigh the sample using an accurate balance and record its initial mass. This measurement serves as the baseline for determining the moisture content or any changes in mass during the drying process.
  • Placing the sample in the drying oven: Place the sample in a suitable container or tray, ensuring that it is spread out evenly and not piled up to ensure uniform drying. Place the container with the sample inside the drying oven.
  • Setting the drying parameters: Set the desired drying temperature and time parameters on the oven’s control panel. These parameters may vary depending on the type of sample and the testing standard being followed.
  • Initiating the drying process: Start the drying process by activating the oven. The circulation airflow system within the oven helps maintain uniform heat distribution and efficient drying of the sample.
  • Monitoring the drying process: Monitor the drying process closely, observing any changes in the appearance or condition of the sample. Periodically check the sample’s moisture content or mass at specified intervals to track the progress of drying.
  • Endpoint determination: Continue the drying process until the sample reaches a constant mass or until the desired moisture content is achieved. This is typically indicated by consecutive weighings showing no further decrease in mass or a specific level of moisture content as required by the testing standard.
  • Cooling and final weighing: Once the drying process is complete, allow the sample to cool inside the oven to room temperature before removing it. Weigh the dried sample again to determine its final mass.
  • Calculation of results: Calculate the moisture content or any other desired parameters based on the initial and final mass measurements of the sample. Follow the specific formula or calculation method outlined in the testing standard or procedure being followed.
  • Reporting results: Record all relevant data, including the initial and final mass of the sample, drying parameters, and calculated results. Prepare a test report documenting the procedure followed and the obtained results for future reference or analysis.

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Contact Information

NL Scientific Global: Advanced material testing solutions for concrete, cement, asphalt, and more. Your trusted partner in construction.
  • +603-3884 6088
  • [email protected]
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  • 16, Lorong Sungai Puloh 1A/KU 6, Taman Teknologi Gemilang, Kawasan Perindustrian Sungai Puloh, 42100 Klang, Selangor, Malaysia.
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