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Buy Sodium Hypochlorite


Yes we can! That being said, we will consult you when it comes to the specifics of the logistical arrangement for buying sodium hypochlorite. For any further questions about specific shipping protocols, please connect with us via email at [email protected] or send a message on WhatsApp for a fast response +86-131-2037-9271.




buy sodium hypochlorite


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Camachem has more than a decade of exporting directly from our manufacturer of sodium hypochlorite from China to the world. We have years of experience and cost savings for our clients to prove it. If you have any further questions about our manufacturing plant or how you can buy chemicals from us, please send us a message via the contact us page.


Camachem is experienced at managing bulk orders for all sodium hypochlorite. Camachem does engage in small-scale orders in order to help our clients scale to larger orders or have samples for testing. However, our major focus in on orders greater than 1 20ft container.


For most non-dangerous chemicals, we are ready to ship samples via international couriers. If you seek samples of sodium hypochlorite to obtain before you decide to buy the chemicals in bulk, please reach out to us at our contact page.


Camachem prides itself in regulatory and safety compliance for all chemicals that we sell. We have a suite of SDS and MSDS documents for all of our chemicals, including sodium hypochlorite. When inquiring to buy chemicals, feel free to download the sodium hypochlorite SDS or sodium hypochlorite MSDS that is available on our website.


We work with over 94 countries, all of which can be found on our countries served page. We normally ship to the largest port in a country or region; if you require a special shipping location to buy sodium hypochlorite, we are glad to accommodate. Please include this in your inquiry for buying sodium hypochlorite.


Can you buy sodium hypochlorite in bulk? Yes, you can, and finding a reliable bulk supplier to work with is key. Sodium hypochlorite is the active ingredient in bleach and it is a very common chemical product used in manufacturing and industrial cleaning. If you work in an industry that uses large quantities of this chemical for either production or cleaning purposes, purchasing in bulk will be important to keep up with demand and ensure you always have enough of the chemicals you need readily available.


So where can you buy sodium hypochlorite in bulk? If you are looking for a trusted bulk chemical supplier to provide you with large commercial and industrial supplies of chemicals, including sodium hypochlorite, Ecolink can help. Ecolink has been a trusted name in bulk chemical supply since 1991. We offer an extensive line of industrial chemicals, solvents, and cleaning agents, to serve as a one-stop-shop for all your chemical needs.


Watered-down (diluted) sodium hypochlorite generally causes only mild stomach irritation. Swallowing larger amounts can cause more serious symptoms. Industrial-strength bleach contains much higher concentrations of sodium hypochlorite, which may cause severe injury.


Sodium hypochlorite, the active ingredient in chlorine bleach, is routinely used in the laboratory to decontaminate surfaces and equipment or deactivate biological materials by inactivating vegetative bacteria, fungi, lipid and non-lipid viruses, and other liquid specimens. Bleach is very reactive and if it mixes with incompatible chemicals, it can produce high hazard by-products and toxic gases.


Proper concentrationsFor disinfection of most biologicals (Exception: prions and prion-like proteins), after dilution, working bleach solutions must contain between 0.5% and 2% sodium hypochlorite to be an effective disinfectant. Hypochlorite concentration in household bleach varies by manufacturer. Many household bleach solutions contain 5.25% sodium hypochlorite, and a 1:10 dilution (5250 ppm Cl) will produce a 0.53% hypochlorite solution1. Use of bleach solutions with lower hypochlorite concentrations will not provide the proper level of disinfection.


Chlorine (hypochlorite) compounds are effective in inactivating vegetative bacteria, fungi, lipid and non-lipid viruses, Coxiella burnetii and Tuberculosis. Chlorine compounds have some effect in inactivating bacterial spores:


A study of corrosive substance intake cases between 01/07/2017 and 01/07/2019 in emergency department of training and research hospital reported that sodium hypochlorite was the most frequent caustic substance ingested, with 51.6% accidental intake and 41.6% suicidal intake. In such cases, endoscopy should be performed as soon as possible, whereas the use of neutralizing treatment is controversial because of the risk of causing thermal injury [12].


A 16-year-old girl who attempted suicide by ingesting 100 mL of 4.5% sodium hypochlorite bleach was transferred to an emergency department after gastric lavage. She presented with dyspnea and drowsiness. Endoscopy 10 days later showed severe esophageal stenosis, and she was diagnosed with esophageal perforation and mediastinitis by radiology 16 days after ingesting bleach. The patient received nonsurgical intensive management with antibiotics, fluids, proton pump inhibitors, and chest tube insertion and gastrostomy for nutritional support. Two months after NaOCl ingestion, she underwent definitive corrective surgery that involved esophagectomy and reconstruction with a colonic interposition graft and was discharged after a good recovery [13].


A 66-year-old female ingested an unknown quantity of regular Clorox bleach (5.25% sodium hypochlorite, pH = 11.4). She was vomiting spontaneously and had slurred speech and oral mucosal discoloration. On hospital arrival, the patient had hypernatremia (169 mEq Na/L), hyperchloremia (143 mEq Cl/L), and metabolic acidosis (5 mmol total CO2/L) in laboratory studies and bilateral pneumothoraxes and pneumoperitoneum were found by radiology. Vital signs deteriorated rapidly, with cardiorespiratory arrest that resulted in death. Autopsy revealed esophageal and gastric mucosal erosions, perforation at the gastroesophageal junction, and extensive necrosis of adjacent soft tissue [15].


The case of Sodium hypochlorite and chlorhexidine extrusion through the apical foramen result in acute pain, swelling, and mucosal fenestration. Immediate and copious irrigation with saline or water for 15 min, ice pack compression for 24 h, followed by warm compress for 24 h are the suggested strategies to reduce damage caused by hypochlorite injuries. Analgesics to manage pain, antibiotics to prevent secondary infection, and steroid therapy for severe injuries are considered (with referral as required [18,19]. A 1.5% sodium hypochlorite solution was inadvertently injected into the buccal mucosa of a 56-year-old female during routine root canal treatment. Soft tissue necrosis, labial ptosis, and paresthesia occurred shortly after the injection. Tissues healed with scarring, and lip paresthesia persisted for 3 years [20].


Allergic contact dermatitis caused by hypochlorite is a delayed-type hypersensitivity (type IV) reaction, in most cases caused by accidental occupational or home exposure; other immediate urticarial reactions have also been reported. A rare case of work-related type I hypersensitivity to sodium hypochlorite was reported. A 22-year-old theater cleaner wore personal protective gear while cleaning with a 0.1% sodium hypochlorite solution spray. He had recurrent urticarial rash and a positive prick test reaction to this chemical and was subsequently removed from further exposure with no further recurrences of the urticarial rash [25].


Chemical pneumonitis caused by chlorine gas inhalation, generated as a secondary product by the chemical reaction between sodium hypochlorite and red diesel, has been reported in a child. A 9-year-old boy developed shortness of breath and chest pain after playing with friends at a building site, where they produced a bonfire using sodium hypochlorite and a red diesel barrel. Supportive care, including airway intubation, recovered after six weeks without any ongoing pulmonary symptoms [32].


One report described organizing pneumonia confirmed by transbronchial lung biopsy after exposure to sodium hypochlorite for a long period of time. A 77-year-old male was admitted to a hospital with nonproductive cough, myalgias, fever, and progressive weight loss after prolonged exposure. The patient was treated with antibiotics and oral prednisolone. The clinical condition of the patient improved starting from one week after the onset of prednisolone treatment. The proposed mechanism was that hypochlorite could release chlorine that damaged moist tissues by reacting with water to form hydrochloric and hypochlorous acids [33].


Several cases related to worksite exposure to sodium hypochlorite have been reported. Cases of work-related asthma caused by exposure to cleaning products have been reported in California, Massachusetts, Michigan, New Jersey, and New York, 12.4% of occupational asthma was associated with cleaning products, and occupations with a high frequency of the disease were health carers, building cleaners, and registered nurses. It was suggested that continued and more effective prevention efforts are needed to reduce the unnecessary use of disinfectants in both health care and non-health care setting, identify safer products, and implement safer work processes [34]. Home care aides may be exposed to volatile organic compounds and chlorine during bathroom cleaning and spraying in small, poorly ventilated spaces typical of bathrooms. This occupational exposure leads to the development of adverse respiratory symptoms [35]. Nurses exposed to hypochlorite bleach, hydrogen peroxide, or both in combination with exposure to aldehydes as disinfectants had a high risk of chronic obstructive lung disease caused by injury of the airway epithelium and oxidative stress [36]. According to a survey of the use of disinfectants during the COVID-19 outbreak, 4.8% of people use sodium hypochlorite bleach because of low cost and easy availability, and 57.3% of people widely use sodium hypochlorite for surface disinfection. The survey reported that improper preparation, the use of disinfectants in unconventional concentrations, storage in unsafe places, excessive use of these materials, receiving instructions for their use from unreliable sources, and improper disposal of empty containers are the most important mistakes made by the participants and misuse of these substances had adverse effects on 41.4% of the participants such as lung irritation, shortness of breath, cough, and sneezing [3]. 041b061a72


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