Fermentation Tubes Manufacturer,Supplier and Exporter in India
Product Code : SCL-LE-11267
Engineered for the
precise quantification of gaseous byproducts during anaerobic respiration,
these Borosilicate 3.3 fermentation tubes facilitate empirical analysis of
microbial metabolic rates. Designed for University and Vocational (TVET)
laboratory environments, the apparatus complies with ASTM E438 Type I Class A
standards for thermal and chemical resistance, enabling accurate measurement of
gas evolution to 0.1 mL or 0.2 mL resolutions.
Technical
Specifications
|
Tender Specification |
OEM Technical Detail |
|
Material Grade |
Borosilicate 3.3 Glass (ISO
3585 compliant) |
|
Volumetric Capacity Options |
5 mL (0.1 mL graduations) or
20 mL (0.2 mL graduations) |
|
Graduation Type |
High-contrast Blue Ceramic
Enamel; chemical-resistant |
|
Base Configuration |
Integrated Circular Glass
Pedestal for vertical stability |
|
Thermal Properties |
Annealing point 560?C ; Coefficient of expansion 33* 10-7 / ?C |
Key Pedagogical
Outcomes
·
Integrated Bulb Reservoir: Allows students to isolate organic substrates and
inoculum under anaerobic conditions, supporting Microbiology Module Metabolic
Pathways.
·
Vertical Graduated Column (0.1
mL/0.2 mL intervals): Facilitates the
precise calculation of gas production rates over time, satisfying Bloom’s
Analysis of microbial kinetics.
·
Borosilicate 3.3 Glass
Construction: Enables safe sterilization
via autoclaving or dry heat, ensuring repeatable trial integrity in Biochemistry
practicals.
·
Integrated Circular Glass Base: Provides mechanical stability during longitudinal
observation, mitigating experimental error due to apparatus displacement.
International
Logistics & Compliance
This laboratory
apparatus is prepared for international procurement via export-grade seaworthy
crating (ISPM-15 compliant) to ensure structural integrity during multi-modal
transit. Documentation includes the Manufacturer’s Authorization Form (MAF),
Technical Data Sheets, and IQ/OQ/PQ Certification options. The glass is
tropicalized and batch-tested for chemical durability in environments up to
45°C/90% Humidity, ensuring that graduations remain legible and the matrix
remains hydrolytically stable in high-humidity regional laboratory facilities.
