A PRESENTATION OF SUMMER TRAINING DONE ON CHROME TANNED LEATHER AT SUPER TANNERY INDIA LTD. JAJMAU, KANPUR PREPARED BY : ANAM KHANAM CSJMA110013901 86
Transcript
1. A PRESENTATION OFSUMMERTRAINING DONE ON CHROME TANNED
LEATHER AT SUPER TANNERY INDIA LTD. JAJMAU, KANPUR PREPARED BY :
ANAM KHANAM CSJMA11001390186
2. ABOUT THE COMPANY Super Tannery Ltd (STL), established in
1953, started operations by processing 50 Buffalo hides per day,
converting them into Vegetable Tanned Leather for shoe soles. Since
then, the company, well guided by a professional approach, has
marked an important name for itself in the world leather map,
making it, one of the oldest and well reputed business houses of
Northern India. Footwear: Military Safety Casual and Formal Kids
Leather for: Safety and Casual Footwear Upholstery Lining Shoe
soles Equestrian equipment Accessories: Bags Belts Jackets
Jewellery
3. Leather is a durable and flexible material created by the
tanning of animal raw hide and skin, often cattle hide. It can be
produced through manufacturing processes ranging from cottage
industry to heavy industry. Leather is used for various purposes
including clothing (e.g. shoes, hats, jackets, skirts, trousers and
belts), bookbinding, leather wallpaper, and as a furniture
covering. Buffalo, goats, alligators, snakes , ostriches,
kangaroos, oxen, and yaks may also be used for leather.
4. Cheek Shoulder Belly Bend Butt Long cut Range
5. Slaughtering & Flaying The actual tanning process begins
with the obtaining of an animal skin. When an animal skin is to be
tanned, the beast is killed and skinned before the body heat leaves
the tissues. This can be done by the tanner, or by obtaining a skin
at a slaughterhouse or farm. Curing Preparing hides begins by
curing them with salt. Curing is employed to prevent putrefaction
of the protein substance (collagen) from bacterial growth during
the time lag that might occur from procuring the hide to when it is
processed. Curing removes excess water from the hides and skins
using a difference in osmotic pressure. The moisture content of
hides and skins gets greatly reduced Tannery Pre- Tanning Tanning
Post Tanning Finishing
6. 1. Soaking This process is done in pit/paddles. In the
process known as soaking, the hides are soaked in clean water to
remove the salt left over from curing and increase the moisture so
that the hide or skin can be further treated. Enzymes are also
added for the strengthening of fibers of skin/hide. 0.025%
Antibacterial agent (Preservative) is added. 2. Liming This process
is also done in pit/paddles. After soaking, the hides and skins are
taken for liming: treatment with milk of lime (a basic agent) that
may involve the addition of "sharpening agents" (disulfide reducing
agents) like sodium sulfide, cyanides, amines etc. The chemical
reaction involve here is CaO + H2O + Na2S Ca(OH)2 + NaOH + NaHS
Ca(OH)2 : swells the hide NaHS: hair removal PRETANNING
OPERATIONS
7. PITS
8. Mechanical Operations Unhairing and scudding Unhairing
agents used at this time are: Sodium sulfide, sodium hydroxide,
sodium hydrosulfite, calcium hydrosulfide, dimethyl amine, and
Sodium sulfhydrate. The majority of hair is then removed
mechanically, initially with a machine and then by hand using a
dull knife, a process known as scudding. Fleshing This is a
continuation of the scraping or fleshing that was done by hand. In
the tannery it is completed on a shaving machine. It has the effect
of stretching the skin as well as cleaning the flesh side. 3.
Deliming and bating The pH of the collagen is brought down to a
lower level so that enzymes may act on it, in a process is known as
deliming. Deliming agents used are commonly (NH)4SO4 NH4Cl Mostly
(NH)4SO4 is used in industry as it has less ammoniacal nitrogen
content
9. 4.Pickling Once bating is complete, the hides and skins are
treated with a mixture of common (table) salt and sulfuric acid, in
case a mineral tanning is to be done. This is done to bring down
the pH of collagen to a very low level so as to facilitate the
penetration of mineral tanning agent into the substance. This
process is known as pickling. The common salt (sodium chloride)
penetrates the hide twice as fast as the acid and checks the ill
effect of sudden drop of pH. Reaction involved here is NaCl + H2O
NaOH + HCl
10. DRUMS
11. Tanning Vegetable Tanning Chrome tanning Other
Materials
12. Chrome-tanned leather, invented in 1858, is tanned using
chromium sulfate and other salts of chromium. It is more supple and
pliable than vegetable-tanned leather and does not discolor or lose
shape as drastically in water as vegetable-tanned. It is also known
as wet-blue for its color derived from the chromium. More esoteric
colors are possible using chrome tanning.
Chromium(III)sulfate([Cr(H2O)6]2(SO4)3) has long been regarded as
the most efficient and effective tanning agent. Chromium(III)
compounds of the sort used in tanning are significantly less toxic
than hexavalent chromium. CHROME TANNING
13. Basic Chromium Sulphate
14. Main advantages of chrome tanning Quick and easy to
produce, usually only taking up to a day Water can roll off the
surface easily with appropriate retanning and finishing processes
Soft and supple to the touch It is possible to obtain leather with
a stable colour It is cheaper to buy than vegetable tanned leather,
which means it is also easier to find It has a high degree of
thermal resistance
16. Post Tanning Operations Wet Back Re-Chroming Neutralization
& Washing Re-Tanning & Dyeing Fat Liquoring Fixing
Mechanical Operations:- Sammying Setting Vacuum Drying Hang Drying
& Toggling Stacking Trimming
17. SAMMYING MACHINE
18. VACUUM DRYER
19. TOGGLING MACHINE
20. Finishing The purpose of finishing is to improve the use
properties of the leather in general and to protect it from wetting
and soiling, to level out patches and grain faults and to apply an
artificial grain layer to split or corrected grain leather.
Furthermore to modify the surface properties (shade, lustre,
handle, etc.). Finishing Materials Finishing materials may be
classified into two main groups: Binders which may be waxes,
proteins or synthetic polymers Additives such as pigments to give
color, or surface modifiers Mechanical finishing operations may
include: Polishing: to create a shiny surface by rubbing it with a
velvety wheel Ironing & Plating: to obtain a flat and smooth
surface Embossing: -to obtain a three-dimensional print Tumbling: -
by rotating the drum quickly to create a more evident grain and a
smooth surface Chemical Finishing: - involves the application of a
film, natural or synthetic by using curtain coaters, roller
coatings and spraying.
21. FINISHED LEATHER
22. Sr. No Characteristic of leather/ parameter of testing
Requirements Units Test method ISI/DIN-EN ISO 1 Tensile Strength
15.0 Min N/mm2 IUP-6DIN53328 2 Elongation At Break 80 Max %
IUP-6DIN53328 3 Tear Strength 120 Min N/mm IUP-8DIN53329 4 Flexing
Endurance 125000 Min Flexures IUP-20DIN53351 5 Adhesion Of Finished
Film 3.0 Min (Dry) 2.5 Min (Wet) N/cm IUF-407/DIN- EN/ISO11644 6
Water Penetration 60 Min Minutes IUP-10/DIN53338 7 Water Absorption
30 Max (After 2 Hrs) % IUP-7DIN53330 8 Water Vapour Permeability
1.0 Min Mg.cm2/hr IUP-15/DIN53333 9 Water Vapour Co-Efficient 80
Min Cm Hg Pressure IUP-15/DIN53333 10 Heat Resistance 180 Max Temp
C IUP-13 11 Color Fastness Grade-3 Rubs Min 50 Dry Rubs IUF-2 12
Grain Distention Of Crackness 7.0 Min mm IUP-12/DIN53324 PHYSICAL
PROPERTIES OF FINISHED LEATHER (BUFFALO GRAIN BARTON)
23. Sr. No. Characteristic of leather/ parameter of testing
Requirements Test method ISI/DIN-EN ISO 1 Determination of moisture
10-16 IUP-2 2 Determination of Total Ash 2.0 max
IUP-7/DIN-EN/ISO4047 3 Determination Of Sulphated Ash Water Soluble
0.5 max IUP-7/DIN-EN/ISO4047 4 Determination Of Solvent Extractable
Substances 3-12 IUP-8/DIN-EN/ISO4048 5 Determination Of Nitrogen
& Hide Substances 1.4 max IUP-10/DIN53308 6 Determination Of
Water Soluble Matters 2.0 max IUP-6/DIN53307 7 Determination Of
Chromium Oxide 2.5 max IUP-8/DIN53309 8 Determination Of pH 3.5 max
IUP-11/DIN-EN/ISO4045 CHEMICAL PROPERTIES OF FINISHED LEATHER
(BUFFALO GRAIN BARTON) NOTE: - Except pH all requirements are in
%.
24. WASTE GENERATION IN TANNERIES Tanning industry is one of
the oldest industries in the world. It is typically characterized
as pollutants generated industries which produce wide varieties of
high strength toxic chemicals. It is recognized as a serious
environmental threat due to high chemical levels including
salinity, organic load (chemical oxygen load or demand, biological
oxygen demand), inorganic matter, dissolved, suspended solids,
ammonia, specific pollutants (sulfide, chromium, chloride, sodium
and other salt residues) and heavy metals etc Water usage and waste
water discharge Raw to Wet Blue= 25-30 l/kg of hide. Raw to finish=
30-40 l/kg of hide
25. Sr. no. Tanning Process Modes of operation Water
Usage(liters) Chemicals used General Constituents of waste water 1
Soaking Pits/ paddles 9-12 Wetting, emulsifying and bacteria agents
Olive green obnoxious odor, contains small protein suspended
matters & high amount of Cl 2 Liming Pits/ paddles 2.5-4.0 Lime
& Na2S Highly alkaline, contains high amount of sulphides,
Ammonical N2, suspended solids, hair pulp and dissolved solids 3
Deliming Pits/ paddles/ drums 2.5-4.0 Ammonium salts, enzymatic
bates alkaline, contains high amount of organic matters &
Ammonical N2 Characteristics of Wastewater
26. 4 Pickling & Chrome tanning Drums 2.0-3.0 Common salt,
acids/basic chrome salts Colored ,acidic, contains high amount of
trivalent chromium, TDS and Cl, acidic dyes & oil emulsion 5
Dyeing & fat liquoring Drums 1.0-1.5 Dyes & fatty acids 6
Composite waste water including washing (raw to finish) 30-40
Alkaline, colored contains soluble proteins, chromium, high TDS
& Cl, sulfides and SS
28. Chromium (VI) the source It is essential to identify the
possible sources of Cr(VI) and the possible generation of the same
during the leather and product manufacturing process. The possible
direct sources of Cr(VI) are the Basic Chromium Sulfate (BCS) used
as a tanning agent, certain class of metal complex dyes and
inorganic pigments. Particularly in the case of pigments based on
lead chromate is a possible source of hexavalent chromium.
Unreduced chromium present tin the leather auxiliaries are the
direct source of Cr(VI). Apart from the direct sources many tools,
substances, auxiliaries, chemicals and process parameters could
contribute significantly to the conversion of trivalent chromium
into hexavalent chromium. Oxidation of Cr(III) to Cr(VI) by oxygen
in air during the processes carried out at higher pH in leather and
footwear manufacturing process is an important cause of Cr(VI)
generation. Some of the possibilities of generation of Cr(VI) are
presented below 1. Neutralization 2. Ammonia Treatment 3. Thermal
and Photo-ageing 4. Fat liquors 5. Adhesives Used in Product
making
29. Avoidance and Mitigation The background of the possible
sources of Cr(VI) and possibilities of Cr (VI) formation torches
the pathway of solution to the problem. It is obvious and
principally important to avoid the direct sources of Cr(VI). The
BCS used for tanning needs to be screened for the level of Cr(VI)
and avoided if found to contain significant mass of Cr(VI). The
process of Chrome tanning needs to be controlled and monitored.
Similarly the Dyes and Pigments shall be chosen for processing only
if they contain no or undetectable levels of Cr(VI). Fat liquors
including synthetic or natural, especially fish oil based fat
liquors with single or multiple unsaturated fatty acids shall be
avoided. Exposure to direct sunlight for drying may be
avoided.
30. The Various Purity tests done there are:- 1. To determine
the Chromium oxide (Cr2O3) Amount of Cr2O3 3.1675 % 2. To check the
purity of recovered BCS From BCS Recovery Plant Result: 1.26 kg
BCS= 0.29 kg Cr2O3 3. To analyze the following parameters after
Primary Treatment of Tannery Effluent, i.e. Total Suspended Solids
in treated water Presence Of Chromium VI+ pH of the water after
treatment Result: TSS in water after treatment is 240 mg/l No pink
color appears in the sample of treated water. So below the limit.
The ph of treated water is 7.6