Vertex Scientific And Lab Instruments Co
Vertex Scientific And Lab Instruments Co
Karam Pura, New Delhi, Delhi
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Vertex Cube Mould

Vertex Cube Mould
  • Vertex Cube Mould
  • Vertex Cube Mould
  • Vertex Cube Mould
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Product Details:

Minimum Order Quantity1 Unit
Size150x150x150mm
MaterialCast Iron
Model NumberVSLIC2024
Automation GradeManual
Surface FinishingPolished
ColorOther Color
BrandVertex
Surface FinishColor Coated
Thickness20-30 mm

About Product :
Vertex cube moulds are made of high-quality metal and are strong enough to resist distortion and retain their shape and size under rugged conditions. These moulds are given internal surface finish of a very high order, to comply with requirements laid down in IS:10086, BS:1881,ASTM C31 and ASTM C192, EN 12390-6-2 The design is such that during dismantling and re-assembly, these moulds attain accuracy of alignment. Vertex offers Cube Moulds, Cylindrical Moulds and Beam Moulds of various sizes.

Cube Moulds Models available:

  • Cast Iron, for 100 mm Cube with ISI Certification Mark, IS:10086
  • Cast Iron, for 150 mm Cube with ISi Certification Mark, IS:10086

 

Beam Moulds (Ref. : EN 12390-1-2) Models available: ​

  • 100 mm x 100 mm x 500 mm size
  • 150 mm x 150 mm x 700 mm size

 

Cylindrical Moulds Models available:

  • Cast Iron, Split length wise 150 mm x 300 mm high with ISI certification mark IS:10086
  • Cylindrical Mould 150 x 300 mm Plastic ( AIM-349 - P)
  • Cast Iron, Split length wise 100 mm dia x 200 mm high
  • Cast Iron, Split length wise 100 mm dia x 100 mm high
  • Cast Iron, Split length wise 150 mm dia x 150 mm high
  • Cast Iron, Split length wise 300 mm dia x 300 mm high

 

Plastic Cube Moulds:

  • Cube Mould, Plastic 100 mm cube
  • Cube Mould, Plastic 150 mm cube
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Additional Information:

  • Delivery Time: 1 Week
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Heat Transfer In Agitated Vessel

Heat Transfer In Agitated Vessel
  • Heat Transfer In Agitated Vessel
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Product Details:

BrandVertex

For Heat Transfer In Agitated Vessel In most industrial processes including reactors, heat is to be added or extracted to control the process. The addition and removal of heat is done by passing steam or water in a jacket fitted to the outside of the vessel or passing steam or cold water in helical coil inside the vessel. For effective heat transfer and even distribution of heat, the liquid inside is continuously agitated. The present set-up offers us a comparative study of Jacket Helical coil, which can be operated simultaneously. It is a stainless steel jacketed vessel with helical coil of copper is fitted inside.


Learning Objectives/Experiments:

  • To determine the overall heat transfer co-efficient for various degree of agitation.
  • To make a comparative study of Heat Transfer through Jacket Coil in an agitated vessel.

 

Technical Specifications:

  • System : Steam to Water
  • Vessel : Material stainless steel fitted with 4 baffles
  • Dia. 250, Depth 350 mm (Approx.)
  • Jacket : Width 25 mm. Insulated with ceramic wool
  • and Cladded with aluminum foil.
  • Helical Coil : Material Copper, OD 16mm, ID 13mm.
  • Agitator : Stainless steel Impeller fitted on a shaft
  • coupled to a variable speed motor and Drive.
  • Condensate Measurement : Measuring Cylinder Stopwatch
  • Water Flow Measurement : Rotameter.
  • Steam Generator : Made of stainless steel fitted with level
  • The whole set-up is ingeniously designed and schematically arranged on a powder-coated rigid structure

Control Panel: 
  • Digital Temp. Controller : 0-199.9°C,
  • Digital Temp. Indicator: 0-199.9°C, with multi-channel switch
  • Temperature Sensors: RTD PT-100 type.
  • Standard make On/Off switch, Mains Indicator etc.
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Thermal Conductivity of Metal Rod

Thermal Conductivity of Metal Rod
  • Thermal Conductivity of Metal Rod
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Product Details:

BrandVertex

The Thermal Conductivity of Metal Rod consists of metal bar, one end of which is heated by an electric heater while the other end of the bar projects inside the cooling water jacket. A cylindrical shell filled with insulating material surrounds the middle portion of the bar. The temperature of the bar is measured at different sections. Heat Input to the heater is given through variac. By varying the heat input rates, data can be obtained. Water at constant rate is circulated through the jacket and its flow rate and temperature rise is noted.

Learning Objectives/Experiments:

  • To plot the temperature distribution along the length of Bar.
  • To determine the thermal conductivity of given bar at various temperatures.

    Technical Specifications:

    • Metal Bar
    • Material : Copper
    • Length : 400 mm (approx.)
    • Diameter : 25 mm
    • Insulating shell
    • Cooling Water Jacket
    • Water Flow measurement : By Measuring cylinder
    • The whole set-up is ingeniously designed and schematically arranged on a powder-coated rigid structure

    Control Panel:
    • .
    • Digital Temp. Indicator : 0-199.90C, with multi-channel switch,
    • Temperature Sensors : RTD PT-100 type.
    • Standard make On/Off switch, Mains Indicator etc.
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    Plate Type Heat Exchanger

    Plate Type Heat Exchanger
    • Plate Type Heat Exchanger
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    Plate type heat exchanger consists of frame in which independent metal plates are clamped between a head and follower. The plates are sealed at their outer edges and around the ports by gaskets, which are so arranged that the liquid and the heating/cooling media are directed alternately into passages formed between the plates.

    The hot fluid enters at the top on the right side of the fixed end cover and flows downwards through alternate channels between the plates. The Hot fluid leaves the exchanger through a connection at the bottom of the fixed end cover. The cold fluid enters at the bottom of the left side of the fixed end cover. The cold fluid flows in counter current flow through alternate channels between the plates and leaves the exchanger at the top on the left side of the fixed end cover.

    Learning Objectives / Experiments:

    To calculate : -
    • LMTD
    • Heat transfer rate
    • Overall Heat Transfer Co-efficient.
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    Anshul Johri (Founder)
    A223, Ground Floor, Near By Bank Baroda
    Karam Pura, New Delhi- 110015, Delhi, India



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