Saturday, December 17, 2016

SILICON EMULSION

Silicone emulsions are inert, heat stable, non-toxicity products, which suit many industrial applications where lubrication, gloss, antistatic, protective and release properties are advantageous. Silicone emulsions can be divided into three groups depending on the type of emulsifier system used, they can be: anionic, cationic and non-ionic. Most emulsions are non-ionic as they are compatible with either of the other two systems but depending on the application, cationic or anionic emulsions can be chosen.
The viscosity and physical characteristics can be altered by using different viscosity base polymers. High perentage solids versions can be supplied as concentrates and diluted with water prior to application, this makes for more cost effective transportation.

Industry                                         Application

> Rubber & Plastics                              Release agents and lubrication 

> Food trays & Plastics                          Release agents

> Car Polish & Dressings                       Protection, weather resistance, gloss and spreadability  

> Household cleaners and polish            Protection, improved gloss and spreadability 

> Textile finishing                                Enhanced feel, water repellency and reduced ironing

> Perlite, vermiculite and clay                Water repellency

> Printing and paper making                 Lubrication and antistatic agent


We have two type silicone emulsion under name SANMINSIL EMUL HGB Purity 60 % and 38 %


Regards,

Michael
WA 0858-94436642
michael@sanminglobe.com

SANMINSIL EMUL HGB

SANMINSIL EMUL HGB adalah cairan silicon oil +emulsifier yang biasa disebut Silicon Emulsion yang memiliki karakter inon "non dan anionik" yang berfungsi sbb :
1. Lubricant atau Pelumas pada offset printing
2. Pelepas cetakan pada plastik, karet, ban kendaraan dan pengecoran
3. Bahan anti air ( water repellent ) dan bahan pelepas pada industri barang pecah belah
4. Bahan tambahan untuk perawatan produk seperti lantai dan pengkilap furniture, perawatan kulit.

Dosis penggunaan : 0.2-1.2%

Cara penggunaan yang mudah hanya larutkan pada air dengan perbandingan 1 lt Sanminsil Emul HGB kedalam 50-250 lt air. Aduk hingga merata dan siap digunakan.

Aplikasi bisa di semprot, celup/ rendam, lap, maupun di kuas.

English version please opened http://www.sanminglobe.com/2016/12/silicon-emulsion_17.html

Notes :
Tersedia kemasan 25 kg- 200 kg/dr.

Selengkapnya jangan sungkan hubungi kami di 02130338599, WA 0858-94436642

michael@sanminglobe.com

Thursday, December 8, 2016

KADIOSIL adalah pupuk silica

Peran KADIOSIL pada Tanaman

> KADIOSIL dengan kandungan Sillica dikenal sebagai unsur hara yanag bermanfaat terutama untuk tanaman Padi, Tebu dan Jagung, Dll. karena tanaman golongan Gramenae tergolong sangat tinggi mebutuhkan Sillica. Padi mengangkut Sillica 100-300kg/ Ha dan tanaman Tebu mengangkut Sillica 500-700kg/ Ha.

> Besarnya Sillica yang diambil setiap kali panen tersebut mengakibatkan miskinnya unsur hara sillica dalam tanah, mengakibatnya berkurangnya produktivitas tanah tersebut. Dengan semakin intensifnya penanaman Padi 2 – 3 kali dalam setahun maka akan menguras unsur hara sillica didalam tanah.

> Diluar Negri penggunaan pupuk silica sudah sangat intensif digunakan oleh Petani, beberapa Pupuk Silica telah dijual secara komersil diluar negri, diantaranya Kalium Silicate Slag, Fuse Magnesium Sillicate dan Kalium Silikat.

FUNGSI KADIOSIL dengan rumus kimia K2O dan SiO2

PADA TANAMAN PADI, JAGUNG & TEBU , Dll.
1. Meningkatkan unsur Sillica dan Kalium pada Tanaman
2. Dapat menstabilkan PH pada Tanah
3. Menguatkan Akar, Batang dan Daun.
4. Melapisi dan melindungi Tanaman dengan Sillica
5. Merangsang Pembuahan, Buah lebih berisi.
6. Tanaman dapat menyerap pupuk dengan sempurna, pemakaian pupuk jadi lebih irit.
7. Dapat digunakan untuk berbagai macam Tanaman termasuk Bunga Potong ( Krisan, Gerbera, Apel )

8. Melindungi tanaman dari serangan Hama Wereng & Penggerek


Komposisi
> SiO2 ..... 26,50 % ( Sillica )
> K2O........13,80 % ( Kalium )
> Sg........... 1,4/ gr

Aturan Pakai :
Semprotkan 1 minggu sekali dengan Dosis 3 ml/ ltr air.


Info selengkapnya jangan sungkan hubungi kami,

michael@sanminglobe.com
02130338599, WA 087737835317




Friday, December 2, 2016

SOLVENTS SERIES

Aromatic Hydrocarbon Solvents
Aromatic hydrocarbon solvents have a benzene ring structure. These solvents are produced in the petroleum refining industry from the distillation of petroleum stock and other chemical conversion processes, such as catalytic hydrogenation and alkylation. These solvents impart stronger odors and have higher solvency rates than aliphatic hydrocarbon solvents.
Common aromatic hydrocarbon solvents used in paints and coatings are benzene, toluene, ethylbenzene, mixed xylenes (BTEX) and high flash aromatic naphthas. Additional information can be found under our Petrochemical Industry VOCs guide. Aromatic solvents are also widely used in printing inks, pesticides, insecticides, and agricultural chemicals.
Short-term exposure to these solvents from inhalation can result in irritation to the upper respiratory tract and eyes, also dizziness, fatigue and headaches. Long-term effects may cause disorders in blood (benzene); cardiovascular and kidney effects, unconsciousness, dysfunction of the CNS (xylene). Benzene is classified as a human carcinogen.

References
ASTDR - Ethylbenzene (PDF)
NIOSH Topic - Organic Solvents
ASTM - Volume 06.04 March 2009: Paint, Solvents, Aromatic Hydrocarbons (list of standards) (PDF)


Aliphatic Hydrocarbon Solvents
Aliphatic hydrocarbon solvents do not contain a benzene ring. They are mixtures of either saturated, long straight chain (normal-paraffin) or branched chain (iso-paraffin) or cyclic paraffins. These solvents are produced by distillation of crude oil by the appropriate boiling point range fraction, then are treated to improve color and odor.
Short-term exposure to these solvents may cause dizziness, giddiness, nausea and headaches, irritation to skin and eyes, and euphoria sometimes resulting in unconsciousness. Long-term effects include muscular weakness, blurred vision, headache, fatigue, numbness, damage to lungs and skin, and neurological disorders.
In addition to their use as solvents or diluents in paints and thinners, they are widely used in oil extraction, degreasing, rubber manufacture, and as carriers for aerosols and disinfectants. Gasoline and kerosene are examples of aliphatic hydrocarbon solvents.
Common aliphatic hydrocarbon solvents used in paints and coatings are mineral spirits, hexanes, heptanes, and VM & P Naphthas.


Oxygenated Solvents (Active Solvents)
Oxygenated solvents are synthetic compounds with oxygen functionality. These solvents are primarily used as active solvents for most synthetic resins due to their strong solvency. They dissolve resins and films; reduce viscosity of paints, varnishes and lacquers for application. The four most widely used in this category are: ketones, esters, glycol ethers, and alcohols.
Ketones
Ketones are commonly synthesized from the oxidation of hydrocarbons. Ketones feature a carbonyl group bonded to two other carbon atoms or alkyl group. They have very strong solvency, a wide range of evaporation rates and also a very distinct, strong odor. The commonly used ketones in paints and coatings are: acetone, methyl ethyl ketone (MEK), methyl isobutyl ketone (MIBK) and isophorone.
Other uses for Ketones: Acetone and MEK are components of solvent mixtures in neoprene, nitrile rubber, and urethane industrial adhesives. Acetone is widely used in the pharmaceutical industry to extract Vitamin B complexes, alkaloids, enzymes and antibiotics. MEK and MIBK are used to dewax oils and also to aid in the extraction and purification of antibiotics; production of smokeless powders, inks, degreasing applications, perfumes, cleaning fluids, antioxidants, and more.

Glycol Ethers
Glycol Ethers commonly known as Cellusolve® are a group of solvents based on alkyl ethers of ethylene glycol and they typically have both ether and alcohol functionality. These compounds were used extensively in coatings until concerns arose about their safety risks. They are being replaced with propylene glycol ethers in many applications. These compounds have strong solvency combined with slow evaporation rate.


Mike
michael@sanminglobe.com
02130338599














Monday, November 21, 2016

BAHAN PELEMBUT PAKAIAN

Pelembut pakaian adalah bahan yang memberi nilai tambah pada proses akhir  industri tekstil, tidak ada satupun proses produksi tekstil yang tidak memerlukan bahan pelembut tersebut. Pelembut kain/tekstil memberikan efek lembut ditangan, mempermudah proses, dan mencapai hasil penanganan yang diinginkan. Lembut ditangan pada saat disentuh adalah bagian yang amat penting dalam hal pemasaran bahan-bahan tekxtil.

Manfaat  Bahan Pelembut Pakaian secara estetika sebagai berikut :
* Memberikan bahan kain yang diinginkan, biasanaya digambarkan secara imajinasi seperti : lembut, penuh, super lembut, halus, elastik, kering, dll.

* Memberikan pengaruh yang positif secara teknologi seperti antistatik, kemampuan menyerap air, elastis, tahan gesekan, dll.

* Memberikan efek yang alamai pada sintetik fiber dan juga mencapai efek lanjutan seperti antistatik, lembut dan sejuk.

Beberapa hal yang diingikan oleh bahan pelembut pakaian sbb :

> Penanganan yang mudah ( bentuk cairan, mudah dipompa, dan larutan yang stabil )
> Memiliki  kecocokanyang baik terhadap bahan-bahan kimia, dan mudah dalam hal pencampuran.
> Tahan temperatur panas, tidak mudah mengalami penguapan oleh air  yang menguap.
> Tidak menimbulkan efek kuning pada bahan kain.
> Tidak menimbulkan efek gesekan.
> Tidak terjadi perubahan warna, tahan pada saat penggarukan, tidak ada sisa-sisa kotoran yang melekat        pada roller.
> Regular and complete bath exhaust 
> Sprayable 
> Tidak beracun, bebas caustic, tidak korosif. 
> Tidak merusak lingkungan dan aman penggunaannya.
> Dermatologically harmless 
> Tidak ada larangan dan penyimpanan, mis : karena bahan yang mudah meledak.

Jenis-jenis bahan Pelembut Pakaian
Non-ionic softeners 
Memiliki sifat yang tidak memiliki sifat negatif maupun positif. Nonionic Softener dapat digabungkan secara meluas, tahan pada temperatur dan tidak menimbulkan efek kuning.  Produk ini adalah sangat bahan pada proses akhir yang menggunakan bahan OBA/ bahan pemutih pakaian. Tingkat kelembutan kategori biasa saja.

Cationic softeners 
Cationic softeners  memperlihatkan tingkat kelembutan yang terbaik sehingga banyak digunakan pada industri tekstil, laundry dan rumah tangga. Cationic Softener memilki kemampuan daya tarik-menarik terhadap hampir semua jenis bahan fiber dan  biasanya diaplikasi pada metode exhaust. Satu-satunya masalah adalah tidak kompatible dengan sifat anionik ( seperti bahan pemutih pakaian, bahan pencelupan ) dan juga efek kuning yang mudah terjadi bila dibandingkan dengan sifat non-ionic softener. Cationic Softener umumnya digunakan pada bahan-bahan kain/ tektil yang berwarna. Product name : TEX-SOFT 90 PLM, ARQUAD 2HT-75
Amphoteric Softener biasa digunakan untuk aplikasi khusus dan bahan tekstil berwarna putih, memberikan efek bahan tekstil yang mudah menyerap air dan kemampuan antistatik yang sama baiknya. Amphoteric Softener sangan sensitif terhadap kulit dan sering juga mudah terurai. Aplikasi utama  pada bahan higienis dan kain handuk.

Anionic softeners 
Anionic softeners kurang digunakan karena suatu sebab seperti kurang lembut namun demikian ada beberapa masih mengunakan bahan tersebut untuk aplikasi tertentu.
* Proses rewetting yang baik
* Memiliki efek anti kerut pada proses pencelupan
* Berlakuk untuk satu bak penampungan dengan bahan anionic seperti bahan pemutih pakaian.
* Bermanfaat pada proses pengangkatan bahan sehingga memberikan efek lembut dan efek antisatatik.
* as a sizing fat 

Softener specialities 
Pseudo-cationic softeners 
Pseudo-cationic softeners can be classified between non-ionic (average handle) and cationic (yellowing) products. They take on a certain compromise, i.e. they can be used on white fabrics still having a good affinity and about the same soft handle as cationic products, providing that the drying temperature or condensation or thermofixation is not too high. 

Silicone micro emulsions 
Silicone Micro Softener memiliki peranan yang amat penting bagi perusahaan yang bergerak dibidang pelembut tekstil. Dengan ukuran partikel yang kecil memungkinkan bahan tersebut menyerap kedalam bahan tekstil sehingga memberikan efek kelembutan yang lebih baik ( super soft ). Antikerut, tahan gesek, elastis dan stabil pada saat proses pencelupan.
Product : Micro Silicon MK 60

Mike
michael@sanminglobe.com
02130338599, WA 087737835317

http://www.sanminglobe.com/2017/05/arquatad-2-ht-75.html

Friday, November 18, 2016

BUTYL CARBITOL

Diethylene Glycol Monobutyl Ether/ Butyl Carbitol

Butyl CARBITOL™ is a slow-evaporating, hydrophilic glycol ether with excellent coalescing and coupling power. Butyl CARBITOL™ glycol ether can be considered a slower-evaporating analog of Butyl CELLOSOLVE™ glycol ether. It can be used in combination with Butyl CELLOSOLVE™ glycol ether to lower the evaporation rate and increase the hydrophobicity of the solvent package. In addition, Butyl CARBITOL™ glycol ether offers 100% water solubility.

Butyl CARBITOL solvent is useful in lacquers, dopes and stamp-pad and printing inks that require a solvent with an extremely low rate of evaporation. This glycol ether is incorporated in high-bake enamels to contribute desirable flow and gloss characteristics. Butyl CARBITOL solvent is a dye solvent used to promote rapid and uniform ink penetration for printing box-board and similar materials.

Butyl CARBITOL solvent serves as a mutual solvent for soaps, oils and water and as a component of liquid cleaners, “soluble” oils and textile oils. It has found increased use in cleaning formulations because of its good solvency for greasy soils and waxes.

Butyl CARBITOL solvent is used as a solvent in formulating aids for latex paints and as a dispersant for vinyl chloride resins used in organosols. It is a diluent for hydraulic brake fluids and an intermediate in the manufacture of plasticizers.

Applications
• Latex coalescent in water-based architectural and industrial coatings.
• Coupling agent and solvent in household and industrial cleaners, rust removers, hard surface cleaners, and      disinfectants.
• Primary solvent in solvent-based silk screen printing inks.
• Coupling solvent for resins and dyes in water-based printing inks.
• Solvent for ball point and felt tip pen inks, and textile dyeing and printing.
• Coalescent for latex adhesives.
• Deactivator, stabilizer for agricultural pesticides.


Features
 * Powerful solvency
*  Coalescing ability
*  High dilution ratio
* Low evaporation rate
* Low viscosity
* Wide range of applications

Typical Physical Properties
Property                                                                         Value
Molecular Weight (g/mol)                                                162.2
Boiling Point @ 760 mmHg, 1.01 ar                                230 °C (446 °F)
Flash Point (Setaflash Closed Cup)                                 114 °C (237 °F)
Flash Point (Open Cup)                                                    93 °C (199 °F)
Freezing Point                                                                 -68 °C (-90°F)
Vapor pressure@ 25°C — extrapolated                             0.03 mmHg 2.9 Pa
Specific gravity (25/25°C)                                                  0.951
Liquid Density @ 20°C                                                      0.955 g/cm3
                        @ 25°C                                                     0.948 g/cm3
Viscosity (cP or mPa•s @ 25°C)                                        6.0
Surface tension (dynes/cm or mN/m @ 20°C)                   30.0 (undiluted)
Specific heat (J/g/°C @ 25°C)                                            2.26
Heat of vaporization (J/g) at normal boiling point               276
Net heat of combustion (kJ/g) — predicted @ 25°C          28.7
Autoignition temperature                                                   210 °C (410 °F)
Evaporation rate (n-butyl acetate = 1.0)                           <0.01
Solubility, g/100 g @ 25°C Solvent in water                      955


Mike
02130338599
WA 087737835317
michael@sanminglobe.com




Sunday, November 13, 2016

Jual Cationic Softener

SOFTENERS have gained great importance in textile finishing; almost no piece of textile  leaves the production facilities without being treated with a softener. This softening treatment is to give the textiles the desired handle, make further processing easier and improve the handling properties. A nice, soft handle is often the decisive criterion for buying a textile and is therefore of most vital importance for marketing many textiles. 

A Softener's main purpose is to improve the aesthetic properties of textiles :
* It gives the fabric the desired handle; usually with imaginative descriptions such as soft, full, super soft, smooth, elastic, firm, dry, sludgy etc. 
* It positively influences the technological properties such as antistatic, hydrophilic properties, elasticity, sewability, abrasion resistance etc.
* It gives synthetic fibres a certain degree of natural feeling and improve the handling properties through secondary effects (antistatic, smoothness, moisture regulation etc.).

Fig. 1: Desirable properties of textile softeners 
> Easy handling (liquid, pumpable, stable dilution) 
> Good compatibility to chemicals, easy to combine 
> Stable to high temperatures, not volatile by water vapour 
> No yellowing 
> No effect on fastnesses 
> No colour shade changes F low foaming, stable to shearing, no deposits on rollers 
> Regular and complete bath exhaust 
> Sprayable 
> Not toxic, not caustic, not corroslve 
> Easlly biodegradable 
> Dermatologically harmless 
> No restriction for transport and storing (flash point) 

Application of textile softeners in practise :
Nort-ionic softeners 
Nonionic softeners do not carry any electrical charge and therefore do not possess any distinctive substantivity. Such products are applied by means of forced application. i.e. usually in padding mangle procedures. Non-ionic softeners can be combined universally, are stable to temperature and do not yellow. This is the reason why this product class is perfect for finishing optically brightened high-white articles. The soft handle of pure non-ionic products is only average.

Cationic softeners 
Cationic softeners show the best soft handle and are therefore used for household articles as well as for industrial articles. They have affinity to almost all fibres and are usually applied by the exhaust method. The only problem is the incompatibility with anionic auxiliaries (optical brighteners, dyeing auxiliaries) as well as their tendency to yellow in comparison with non-ionic products. Cationic softeners are mainly used for coloured textile sub strates . Product name : TEX-SOFT 90 PLM, ARQUAD 2HT-75

Amphoteric softeners 
Formulations based on amphoteric substances are usually for special products of certain applications. Amphoteric products give an average handle, are normally compatible with white and give the fabric a good hydrophilicity as well as excellent antistatic properties. Furthermore, amphoteric softeners are very sensitive to skin and are often biodegradable. The main application range is hygiene and terry-cloth articles. 

Anionic softeners 
Anionic softeners are being used less because of the somewhat poor handle and the low substantivity, but are still of importance for certain fields.
* as Sanforizing assistance thanks to their good re-wetting properties 
* as crease-preventing agents in dyeing processes (anionic products do not retard at all or only to a small extent) 
* for one-bath application with other anionic auxiliaries such as optical brighteners 
* as a raising assistant due to good smoothing and antistatic efficiency 
 * as a sizing fat 

Softener specialities 
Pseudo-cationic softeners 
Pseudo-cationic softeners can be classified between non-ionic (average handle) and cationic (yellowing) products. They take on a certain compromise, i.e. they can be used on white fabrics still having a good affinity and about the same soft handle as cationic products, providing that the drying temperature or condensation or thermofixation is not too high. 

Silicone micro emulsions 
Amino functional silicones have a big importance to textile softening companies. Their surface smoothening
and softening properties are above all other product groups. Micro and semi-micro emulsions can
be made with specially selected emulsifying recipes using aminofunctional silicones. They offer a number of advantages which ,are totally in keeping for modern textile finishing. The low particle size (microemulsions <O.Olp) semi micro emulsions ~0.1 p) allow for the additives to penetrate in to the fibre core and in this way allow for an excellent product distribution of the micro emulsion. Silicone micro emulsions give textiles an excellent inner softness and a distinctive surface smoothness without looking greasy. They improve the technological properties of the textile (e.g. abrasion resistance, creasing angle), support the elasticity and optimize the sewability. Micro emulsions have a good product stability and decrease the hazard of roller coverings . The use of fast-running machines/ devices with high shearing forces may cause problems when working with silicone micro emulsions (bath stability) unless specially optimized products for this application field were selected.

The softening capacity of silicones is based on the gliding behaviour on the fibre surface as well as in the fibre. Polydimethyl siloxanes attached to amino-functional groups allow for a better orientation and substantivity of the silicone on the substrate. This again leads to a better soft handle ("super soft)" and good washing permanency. Product Name : Micro Silicon MK 60

Terjemahan klik http://www.sanminglobe.com/2016/11/bahan-pelembut-pakaian.html


===
Kami adalah supllier bahan kimia, Jual bahan pelembut pakaian atau kationik softener harga bersaing, kemasan 200 kg/dr. Info selengkapnya jangan sungkan hubungi kami. 




Saturday, November 12, 2016

DMSO application used as a organic solvent

DMSO application used as a organic solvent

Dimethyl Sulfoxide ( DMSO ) is a highly safe aprotic polar solvent that dissolves most organis and inorganic compounds.
In addition, Dimethyll Sulfide ( DMS), an intermediate raw material of DMSO, is a unique product of Toray Fine Chemicals used in a variety of other fields.


Applications :
Removers and Cleaners
Thanks to both high dissolution properties and permeability, DMSO has extensive application as a remover and cleaner in a number of areas.
・Electronic component cleaners
・Removers
・Plant cleaning agents
・Mold release solvents for motor parts molding

Other applications
Thanks to its outstanding dissolution properties and low toxicity, use of DMSO is not limited solely to the chemical industry.
・Polymerized yarn solvents
・Extracting solvents
・Dye and Pigment dissolving solvents


DMSO for 

Agricultural Chemicals

There are two important applications for DMSO in the agrichemical sciences. DMSO is used as a reaction solvent to synthesize agricultural chemicals and as a solvent for the formulation of agrochemical actives.

Formulation: The powerful solvent properties of DMSO allow for high actives loading, resulting in highly concentrated formulations. DMSO is completed miscible in water and is naturally biodegradable.

DMSO is a useful liquid formulation solvent for Imidacloprid, a neonicotinoid insecticide. Imidiacloprid is thought to be the most widely used insecticide in the world (Yamamoto, Izuru (1999).

An important benefit offered by DMSO in agricultural chemical formulations is the ability to dissolve highly insoluble active ingredients. It provides an alternative to more hazardous dipolar aprotic solvents which are being regulated out of agrichemical applications – particularly N-Methyl Pyrollidone (NMP). To learn more about how DMSO is being used to replace NMP.

Examples of agrichemical ingredients which have good DMSO solubility are the imidazolinone herbicides imazethapyr and Imazamethabenz-methyl.

For any further info please contact us.












LIQUID CHELATING AGENT


Neocrys Chelate as Liquid Chelating Agent
Metal ions have a powerful influence on chemical processes as well as on the performance of many products. A wide range of problems associated with metal ions can be solved using Neocrys Chelate.
Chelates seize a metal ion and control it, making it very difficult for another substance to liberate it. NEOCRYS chelates form strong, water-soluble complexes that prevent undesirable precipitation, dissolve scale deposits and optimize oxidation processes. Our NEOCRYS chelate product range includes chelating agents that bind and control metal ions, as well as metal chelates.
PROPERTIES : 
Appearance     : Yellowish liquid 30 %
Composition  : Special High Molecular Anionic Surfactant Compound
Ionic Nature   : Anionic
pH                   : Approx. 10 (in 100% solution)
Solubility       : Soluble in water
CHARACTERISTICS :
1. Preventing precipitation, removing scale, or dissolving metals
• agricultural applications
• mining processes
• oil and gas production and processing
2. Controlling metal catalyzed reactions
• building applications
• polymer production
• pulp and paper production
3. Preventing precipitation and controlling metal catalyzed reactions
• cleaners and detergents
• electronics
• industrial cleaning
• metal plating
• photography
• textile processing
DIRECTIONS FOR USE :
The following recommendation may serve as a guide 0.5 ~ 1 G/Lt.
The quantity of chelating agent needed depends on the concentration of metal ion to be chelated and the type of NEOCRYS chelating agent used. NEOCRYS® chelating agents form a complex with a metal ion generally on an equimolecular basis (which means the higher the molecular weight of the chelating agent, the higher the quantity of chelating agent required to chelate the metal ion).
APPLICATIONS USED :
Cleaning and Detergents
NEOCRYS chelating agents are powerful builders. They enhance the cleaning power of a cleaner/ detergent by catching the hardwater ions ( Ca and Mg) and removing Ca and Mg based residues which bind most dirt to surfaces.
They also prevent the deactivation of anionic surfactants from hard water metal ions, so less surfactant can be used.
Besides this, what’s more, NEOCRYS chelating agents deactivate the unwanted transition metal ions that are often introduced through raw materials in the manufacture of soap and of detergents that contain peroxides like hydrogenperoxide, percarbonates and perborates.
In biocidal detergents chelates greatly enhances the effectiveness of biocides so the amount needed to be effective can be reduced. They also boost the performance of preservatives in liquid detergents, again less can be used and cost savings can be made.
Industrial Cleaning 
Metal salts can cause scaling problems in boilers, heat exchangers and other water circulation systems found in the power, brewing, sugar and dairy industries. NEOCRYST® chelating agents form stable, water-soluble metal complexes with all potentially harmful metal ions, dissolving existing scale formations and preventing new scales from forming.
Printing ink 
Metal ions can cause the formation of insoluble resin soaps in water thinned inks. For example, in offset printing, the formation of polyvalent metal soaps may cause unwanted discoloration. NEOCRYS® chelating agents are used to overcome these problems, resulting in clear and color-stable inks.

Pulp and paper 
Some transition metal ions catalyze the decomposition of bleaching agents (e.g. peroxide, ozone and hydrosulfite) and can lead to brightness reversion of pulp and paper. Traces of heavy metals, which occur naturally in wood fibers and processing water, work against the best efforts of pulp and paper mills to produce brighter, whiter papers. Uncontrolled, these metal ions reduce the effectiveness of hydrosulfite and hydrogen peroxide bleaches used to brighten pulps. As a result, it takes more bleach to achieve and maintain the desired level of brightness. Because bleach chemicals are relatively expensive, pulp and paper mills have long worked to control metal ions through chelation chemistry.
NEOCRYS® chelating agents are used to remove and deactivate metal ions.

Textiles 
During the scouring and bleaching of textile fibers, NEOCRYS® chelating agents remove and deactivate metal ions that would otherwise catalyze the decomposition of the peroxide bleaching agent. They also improve the performance of dye baths, where metal ions like Ca and Mg inhibit dye penetrating the fiber.
PACKING :
- 200 Kg nett in Polygen
For any further info please feel free to contact me.

LIQUID CHELATING AGENT


Neocrys Chelate as Liquid Chelating Agent
Metal ions have a powerful influence on chemical processes as well as on the performance of many products. A wide range of problems associated with metal ions can be solved using Neocrys Chelate.
Chelates seize a metal ion and control it, making it very difficult for another substance to liberate it. NEOCRYS chelates form strong, water-soluble complexes that prevent undesirable precipitation, dissolve scale deposits and optimize oxidation processes. Our NEOCRYS chelate product range includes chelating agents that bind and control metal ions, as well as metal chelates.
PROPERTIES : 
Appearance     : Yellowish liquid 30 %
Composition  : Special High Molecular Anionic Surfactant Compound
Ionic Nature   : Anionic
pH                   : Approx. 10 (in 100% solution)
Solubility       : Soluble in water
CHARACTERISTICS :
1. Preventing precipitation, removing scale, or dissolving metals
• agricultural applications
• mining processes
• oil and gas production and processing
2. Controlling metal catalyzed reactions
• building applications
• polymer production
• pulp and paper production
3. Preventing precipitation and controlling metal catalyzed reactions
• cleaners and detergents
• electronics
• industrial cleaning
• metal plating
• photography
• textile processing
DIRECTIONS FOR USE :
The following recommendation may serve as a guide 0.5 ~ 1 G/Lt.
The quantity of chelating agent needed depends on the concentration of metal ion to be chelated and the type of NEOCRYS chelating agent used. NEOCRYS® chelating agents form a complex with a metal ion generally on an equimolecular basis (which means the higher the molecular weight of the chelating agent, the higher the quantity of chelating agent required to chelate the metal ion).
APPLICATIONS USED :
Cleaning and Detergents
NEOCRYS chelating agents are powerful builders. They enhance the cleaning power of a cleaner/ detergent by catching the hardwater ions ( Ca and Mg) and removing Ca and Mg based residues which bind most dirt to surfaces.
They also prevent the deactivation of anionic surfactants from hard water metal ions, so less surfactant can be used.
Besides this, what’s more, NEOCRYS chelating agents deactivate the unwanted transition metal ions that are often introduced through raw materials in the manufacture of soap and of detergents that contain peroxides like hydrogenperoxide, percarbonates and perborates.
In biocidal detergents chelates greatly enhances the effectiveness of biocides so the amount needed to be effective can be reduced. They also boost the performance of preservatives in liquid detergents, again less can be used and cost savings can be made.
Industrial Cleaning 
Metal salts can cause scaling problems in boilers, heat exchangers and other water circulation systems found in the power, brewing, sugar and dairy industries. NEOCRYST® chelating agents form stable, water-soluble metal complexes with all potentially harmful metal ions, dissolving existing scale formations and preventing new scales from forming.
Printing ink 
Metal ions can cause the formation of insoluble resin soaps in water thinned inks. For example, in offset printing, the formation of polyvalent metal soaps may cause unwanted discoloration. NEOCRYS® chelating agents are used to overcome these problems, resulting in clear and color-stable inks.

Pulp and paper 
Some transition metal ions catalyze the decomposition of bleaching agents (e.g. peroxide, ozone and hydrosulfite) and can lead to brightness reversion of pulp and paper. Traces of heavy metals, which occur naturally in wood fibers and processing water, work against the best efforts of pulp and paper mills to produce brighter, whiter papers. Uncontrolled, these metal ions reduce the effectiveness of hydrosulfite and hydrogen peroxide bleaches used to brighten pulps. As a result, it takes more bleach to achieve and maintain the desired level of brightness. Because bleach chemicals are relatively expensive, pulp and paper mills have long worked to control metal ions through chelation chemistry.
NEOCRYS® chelating agents are used to remove and deactivate metal ions.

Textiles 
During the scouring and bleaching of textile fibers, NEOCRYS® chelating agents remove and deactivate metal ions that would otherwise catalyze the decomposition of the peroxide bleaching agent. They also improve the performance of dye baths, where metal ions like Ca and Mg inhibit dye penetrating the fiber.
PACKING :
- 200 Kg nett in Polygen
For any further info please feel free to contact me.

Saturday, November 5, 2016

POLYGLYCEROL ESTER

The emulsifiers applied in Emuls® 110 are based on vegetable fat. The product can be provided with a non-GMO certificate. Emuls® 110 is an allround product that can be applied in a variety of cake products, e.g. sponge cakes, Swiss rolls, pound cakes etc. where all the ingredients can be added at once.

Emuls® 110 is a medium fast acting emulsifier with an excellent tolerance towards long whipping times.

The whipping profile of Emuls® 110 is well suited in cake products requiring medium to longer whipping times. These properties ensure a baked product with a fine and regular crumb structure and a high volume.

A unique characteristic of Emuls® 110 is its tolerance towards high and elevated storage temperature. Emuls® 110 is able to keep the whipping functionality almost unchanged for a long period of storage.




Sponge cake with 5.2% Emuls® 110, Hobart A-200 model, 3rd speed. The whipping time of 8-12 minutes provides the optimum whipping- and cake volume. The figures are the average of 1-year storage of the mix.

Due to the all-round properties and high degree of tolerance Emuls® 110 is recommended for use in more demanding applications, e.g. cake mixes containing cocoa powder, dry egg powder or ”Asian Style” sponge, where oil is added.

As Emuls® 110 is based on a neutral carrier (native starch), the amount of colouring agent in the cake mix (e.g. skim-milk powder, dextrose, whey powder etc.) can be adjusted independently of the emulsifier level.

Emuls® 110 can be combined with other whipping emulsifiers, like Emuls® 115. This makes it possible for the product developer to tailor the whipping qualities to meet specific applications.

Sponge cake/Swiss roll : 4-6% on dry ingredients
Cocoa sponge cake      : 5-6% on dry ingredients
Pound cake/Madeira     : 2-4% on dry ingredients

Internal investigations have shown that other ingredients in a mix can have influence on the performance of the emulsifier.

In the figure below you can find data from our continuous whipping test programme.

Batter density at different whipping times



For any further info please feel free to contact me


LECITHIN REPLACEMENT

Dreaming of the perfect chocolate?
It’s a chocolate manufacturer’s dream: cost-effective and stable control over the viscosity of any type of chocolate " regular or low fat " without the taste or odour downsides of lecithin. Now there’s a new production “tool” that can make all of this possible.

Far lower dosages – same effect
Developed as a powerful alternative to lecithin, Pals® AMP  is a state-of-the-art ammonium phosphatide chocolate emulsifier (also known as AMP, Emulsifier YN or E442).
Pals® AMP  has the remarkable ability to outperform lecithin without the usual downsides of lecithin and at far lower dosages. For chocolate manufacturers eager to explore new limits, Pals® AMP has come up with a compelling “more for less” solution that eases production and saves costs.

Outperforming lecithin
Lecithin, the much-used cornerstone of chocolates around the world, has been included in chocolate recipes for more than 60 years. In that time, it has served its purpose well, acting as a functional and reasonably efficient ingredient when it comes to adjusting flow properties and reducing fat content in chocolate.

But it’s not without its drawbacks. For example, the soybased variety used in the confectionery industry is at the mercy of natural variations in the bean harvests from year to year and region to region. On the one hand, this means fluctuations in supply and prices – adding to the difficulties
for manufacturers already dealing with the ups and downs of the cocoa bean market. On the other, the performance of lecithin is highly dependent upon the purity and composition
of its raw materials.

Pals® AMP  (E442) doesn’t suffer from such difficulties. The newly developed chocolate emulsifier produces properties in chocolate never seen before. It’s based on highly consistent and obtainable raw materials, so its quality isn’t at the mercy of Mother Nature. And perhaps best of all, Pals® AMP  has been documented to outperform normal types of lecithin used by the chocolate industry at all dosage levels – both when producing chocolate and compound chocolate.

More for less

Friday, November 4, 2016

PEWARNA MAKANAN

Pewarna makanan adalah zat aditif yang ditambahkan untuk meningkatkan warna makanan atau minuman. Pewarna makanan dicampurkan untuk memberi warna pada makanan, meningkatkan daya tarik visual pangan, merangsang indera penglihatan, menyeragamkan dan menstabilkan warna, dan menutupi atau mengatasi perubahan warna. Zat ini tersedia dalam berbagai bentuk, seperti cairan, bubuk, gel, atau pasta.


Pewarna Makanan yang Diizinkan


Thursday, October 27, 2016

PARAFORMALDEHYDE

Senyawa kimia formaldehida (juga disebut metanal, atau formalin), merupakan aldehida dengan rumus kimia H2CO, yang berbentuknya gas, ataucair yang dikenal sebagai formalin, atau padatan yang dikenal sebagaiparaformaldehyde atau trioxane

Formaldehida dapat digunakan untuk membasmi sebagian besar bakteri, sehingga sering digunakan sebagai disinfektandan juga sebagai bahan pengawet. Sebagai disinfektan, Formaldehida dikenal juga dengan nama formalin dan dimanfaatkan sebagai pembersih; lantai, kapal, gudang dan pakaian.
Formaldehida juga dipakai sebagai pengawet dalam vaksinasi. Dalam bidang medis, larutan formaldehida dipakai untuk mengeringkan kulit, misalnya mengangkat kutil. Larutan dari formaldehida sering dipakai dalam membalsem untuk mematikan bakteri serta untuk sementara mengawetkan bangkai.
Dalam industri, formaldehida kebanyakan dipakai dalam produksi polimer dan rupa-rupa bahan kimia. Jika digabungkan dengan fenolurea, atau melamina, formaldehida menghasilkan resin termoset yang keras. Resin ini dipakai untuk lem permanen, misalnya yang dipakai untuk kayulapis/tripleks atau karpet. Juga dalam bentuk busa-nya sebagai insulasi. Lebih dari 50% produksi formaldehida dihabiskan untuk produksi resin formaldehida.
Untuk mensintesis bahan-bahan kimia, formaldehida dipakai untuk produksi alkohol polifungsional seperti pentaeritritol, yang dipakai untuk membuat cat bahan peledak. Turunan formaldehida yang lain adalah metilena difenil diisosianat, komponen penting dalam cat dan busa poliuretana, serta heksametilena tetramina, yang dipakai dalam resin fenol-formaldehida untuk membuat RDX (bahan peledak).
Sebagai formalin, larutan senyawa kimia ini sering digunakan sebagai insektisida serta bahan baku pabrik-pabrik resin plastik dan bahan peledak.

Daftar kegunaan formalin



Source : https://id.wikipedia.org/wiki/Formaldehida

Mike
02130338599, 087737835317
michael@sanminglobe.com