How to use a disposable incision protector

Application operation      Disposable incision protection cover is suitable for endoscopic and various incision operations, such as endoscopy, thoracoscopy, appendicitis surgery, etc.     Instructions for use      Step 1: Prepare the incision protector for the abdomen or thoracic cavity by making an incision large enough to accommodate the incision protector.      Step 2: Insert the blue distal ring of the incision protector into the incision.      Step 3: Check and clean the incision area to ensure that the tissue does not get stuck between the ring and the abdominal wall.      Step 4: Hold the gray proximal ring so that your hands face each other. Pull on the gray proximal ring, making sure that the gray distal ring is completely against the peritoneal layer.      Step 5: Roll the gray proximal ring by curling the edge of the top ring until the ring is completely turned over.      Step 6: Repeat step 5 until the incision is retracted and the incision protective sleeve is close to the incision wall.

Issues related to handling medical waste

In order to standardize the management of medical waste by medical and health institutions, and effectively prevent and control the harm caused by medical waste to human health and the environment, this method is formulated in accordance with the Regulations on Medical Waste Management. All levels and types of medical and health institutions shall manage medical waste in accordance with the Regulations on the Management of Medical Waste and these Measures. The Ministry of Health supervises the management of medical waste in medical and health institutions across the country. The health administrative department of the local people's government at or above the county level supervises the medical waste management of medical and health institutions in the administrative region. The medical packaging bag reminds the management responsibilities of medical and health institutions for medical waste. Medical and health institutions shall establish and improve the responsibility system for medical waste management, with their legal representative or main responsible person as the first responsible person, and earnestly perform their duties to ensure the safe management of medical waste. Medical and health institutions shall, in accordance with relevant national laws, administrative regulations, departmental rules and regulatory documents, formulate and implement medical waste management rules and regulations, work procedures and requirements, work responsibilities of relevant personnel, and medical waste loss in medical and health institutions , Leakage, proliferation and emergency response plans. Medical and health institutions shall set up monitoring departments or full-time (part-time) personnel responsible for medical waste management to perform the following duties: responsible for guiding and inspecting the implementation of various tasks in the process of classified collection, transportation, temporary storage and disposal of medical waste; Responsible for guiding and inspecting the occupational health and safety protection during the classified collection, transportation, temporary storage and disposal of medical waste in the institution. Responsible for organizing medical waste loss, leakage, proliferation and emergency treatment when accidents occur; responsible for organizing training on medical waste management; responsible for medical waste registration and file management; responsible for timely analysis and processing of medical waste management other questions.

The requirements for medical plastic injection molding are very high

Compared with ordinary plastics, medical plastic injection molding requires higher:

(1) Because of most toxic monomers and oligomers, medical plastics have strict restrictions on the residues of these substances;    (2) Plastics are inevitably exposed to the reaction vessel during polymerization. Metal catalysts often contain trace amounts of metal ions. According to the national standards for medical plastics, zinc, lead, cadmium, copper, barium, tin and other metal ions remain The situation is clearly defined;    (3) High purity and narrow molecular weight distribution are required for medical plastics;    (4) Various additives need to be added in the process of plastic processing or modification. For example, the plasticizer in medical plastic products such as the added amount is often as high as 30-60%. Therefore, it is required to use non-toxic chemicals as much as possible to prevent long-term use or reduction Precipitation of additives, so as not to affect product performance and treatment;    (5) According to the requirements of medical plastics, it is often necessary to manufacture products with hydrophilic surface, anti-coagulation, anti-radiation sterilization and other functions.

Medical grade LSR classification of medical silicone

Silicone is attracted by its stability and elasticity, so that the material can be cast into any shape. Today, various silicone materials meet the standards of medical device manufacturers, including medical non-implantable, medically restricted implantable and medically non-restricted implantable. One of the main reasons why silicone has developed into a key material for medical applications is the biocompatibility of the material and its use in various medical silicone products.      Innovations in material science have made it possible to use non-implanted materials for various hardness testers. This makes it possible to manufacture medical devices with different hardness levels. The non-implantable LSR used for mold manufacturing can be in contact with the skin, but not with the inside of the body. Medical silicone must be evaluated by specific safety tests. ISO10993 provides a global multi-part standard for evaluating the biological safety of this material. LSR complies with the medical application standard described in ISO10933.      Medical grade LSR is divided into three categories: limited exposure, prolonged exposure and sexual contact.      Limited Exposure-For equipment that will come into contact with skin, mucous membranes or damage and destroy surfaces, the service life of this category is shorter than 24 hours or less.      Prolonged exposure-This so-called "medical grade" material is based on tests such as hemolysis, genotoxicity, toxicity and histopathological intramuscular implantation. The material has surface or implant contact for more than 24 hours to 30 days.

Medical waste classification catalogue

Medical waste refers to the direct or indirect infectious, toxic and other hazardous wastes produced by medical institutions in medical treatment, prevention, health care and other related activities, including infectious, pathological, damaging, pharmaceutical and chemical wastes. Nowadays, a variety of technologies can be used for the disposal of medical waste. Among them, high temperature incineration can fully ensure the environmental protection requirements of stabilization, safety, reduction and harmlessness of medical waste, and at the same time meet the development trend of contemporary medical waste disposal. The medical garbage can refers to the container that holds the direct or indirect infectious, toxic and other hazardous wastes produced by medical and health institutions in medical treatment, prevention, health care and other related activities.

Medical wastes are classified into five categories according to the classification catalogue of medical wastes First, infectious waste refers to the medical waste that carries pathogenic microorganisms and has the risk of causing the spread of infectious diseases, including the articles contaminated by patients' blood, body fluids and excreta, and the garbage generated by patients with infectious diseases; damaging waste refers to the discarded medical sharp instruments that can stab or cut the human body, including medical needles, scalpels, scalpels, glass test tubes, etc. Second, chemical waste refers to toxic, corrosive, flammable and explosive waste chemicals, such as waste chemical reagents, chemical disinfectants, mercury sphygmomanometers, mercury thermometers, etc. The general chemical reagents and disinfectants discarded in the laboratory are discharged into the sewer. Third, pathological waste refers to human waste and medical experimental animal corpses produced in the process of diagnosis and treatment, including waste human tissues produced in operation and waste human bodies after pathological sections Pharmaceutical waste refers to obsolete, obsolete, deteriorated or contaminated drugs, including abandoned general drugs, abandoned cytotoxic drugs and genotoxic drugs.

Various uses of plastic materials in medicine

If we don't use plastic materials, modern medicine will not be possible. From the shell of an open MRI machine to small tubes, plastics make medicine easier and less painful. Things we take for granted, such as disposable syringes, venous blood bags and heart valves, are now made of plastic. Plastic reduces the weight of frames and lenses. They are the key components of modern prosthetic devices, with greater flexibility, comfort and mobility. Plastic allows artificial hip and knee joints to provide smooth working, trouble free joints. Plastic packaging is an ideal choice for medical applications due to its excellent barrier, light weight, low cost, durability and transparency. Today, innovative medical procedures rely on plastics.

Traditionally, metals, glass, and ceramics have been used in medical implants, devices, and stents. However, polymers are more suitable for these applications because of their lighter weight, better biocompatibility and lower cost. Fibers and resins for medical use include polyvinyl chloride (PVC), polypropylene (PP), polyethylene (PE), polystyrene (PS), nylon, polyethylene terephthalate (PET), polyimide (PA), polycarbonate (PC), acrylonitrile (ABS), polyether ether ketone (PEEK) and polyurethane (PU). PVC is widely used in medical applications, followed by PE, PP, PS and pet. PVC is widely used in pre sterilized disposable medical applications. It is a kind of multifunctional plastic and has been used in medical applications for more than 50 years.

Medical uses of plastic materials include: Small tubes called catheters are used to dredge blood vessels. Deposits that block blood vessels can be broken down by tiny spiral implants called vascular stents. Vascular stents are made of plastics specially developed for the medical field with active substances.    2. The plastic pill casing is made of polymer based on tartaric acid, which gradually decomposes and slowly releases the required drug in the required time. These customized drug delivery systems help limit the amount of pills patients need to take.    3. Synthetic materials can also play an important role in repairing diseased arteries that cannot be supported by blood vessels. After removal of the affected part of the aorta, the damaged part was removed and a flexible plastic prosthesis was used to connect the gap. People with severe hearing loss can now implant plastic implants so that they can hear the sound again. The implant consists of several components, including a microphone and a transmission device connected to a microcomputer worn on the body. In addition, there is a stimulator and an electrode carrier with 16 electrodes and 16 different frequency ranges. The device converts acoustic pulses into electrical pulses, bypasses the damaged cells and directly stimulates the auditory nerve.

Disposable incision protector for caesarean section

Compared with the traditional incision protector, the disposable incision protector specially used for caesarean section can significantly expand the operation field of vision and increase more working areas.    features of disposable incision protective sleeve:    1. Reduce overall pain and discomfort    2. It is easy to use and saves valuable operation time and cost Keep the edge of the wound moist to prevent potential contamination 4. Reduce the demand for analgesics and nausea drugs Help obese patients with caesarean section    6. Reduce recovery time    7. Reduce the injury of lateral femoral nerve    8. Improve cosmetics    advantages of disposable incision protective cover:    1. Contraction    360 ° circumferential contraction    evenly distribute the strength, eliminate the point trauma and related pain, and reduce the postoperative pain    eliminates the need for bladder blades    2. Protection    360 ° wound protection    significantly reduced the risk of wound infection    keep water in the incision.    3. Vision    to enlarge the field of vision, reduce the size of incision as much as possible, so as to shorten the operation time    allow visualization of wound edges    release precious hands in the operating room

Many uses and forms of medical silica gel

Medical silica gel is a kind of clinical test product, which is designed to interact with human body safely in medical environment. Many uses and forms of medical silica gel make it difficult to define and classify. But before it can be used in medicine, it needs to pass strict FDA standards. Because medical silicone products are safe and durable, they can be designed for short-term or long-term use. For example, tubes, dental fixators, implants, respirators and scar treatment tablets contain medical silica gel. In this paper, medical silica gel will be further studied.    where does silica gel come from?    before we can get many applications of medical silica gel, we need to start with the trivial origin of silicon. Silicon is the second most abundant element on earth, accounting for more than 25% of the earth's crust. Generally, silicon can be found as silica in nature, and silica is the main component of quartz. The atomic element silicon (SI) is located in the carbon Group No. 14 in the periodic table. Silicon is a hard and brittle nonmetal with blue metallic luster and crystal structure. As nonmetal, it contains the properties of metal and nonmetal. In itself, silicon is not a very active substance, which means it is harmless and works well with other elements. Semiconductors are good for computers and other electronic devices    silicon as a natural substance is different from its brother silica gel (also known as polysiloxane). Silica gel is a kind of synthetic compound, which is produced when silicon atoms are connected with oxygen to form repeated chains of silicon and oxygen atoms. Usually, this bond combines with hydrogen and carbon to produce siloxanes with different properties. Silica gel has attracted much attention because of its low toxicity, heat resistance, chemical resistance, insulation and waterproof ability. The practical application of silica gel is endless. It is widely used in automobile, aerospace, cooking, electronics, cosmetics and pharmaceutical industry. The durability, low toxicity and flexibility of   silica gel make it an obvious candidate in the medical field. The famous silicone medical application was introduced into the United States in 1960s in the form of silicone gel breast implants. The fact that silica gel can be used internally in this way proves its biocompatibility, or its ability to interact safely with human body.

Some thoughts on the selection of medical grade plastic materials

There are several grades of plastics that can be used for injection molding of medical devices and the development of prototypes of medical devices. Each material has unique properties that determine its performance in the expected application and operating environment. The considerations for choosing suitable medical grade plastic materials for your medical plastic products include:

  Strength: Plastic resins provide different degrees of strength, so it is very important to ensure that the medical grade plastic material you choose has the strength properties required for your application.

  FDA requirements: Medical devices being implanted have different requirements from those used for tubes, medical devices and other external purposes. Before selecting a material, please review the FDA's requirements for your application.

Chemical resistance and heat resistance: When choosing medical grade plastic materials, chemical resistance and heat resistance are two key considerations, especially if your finished parts need to be able to pass through autoclaves, gamma rays or chemical Method for sterilization.

Operating environment: Operating conditions determine the requirements for factors such as strength, temperature resistance, chemical resistance, corrosion resistance, and radiation resistance. Make sure that the medical-grade plastic material you choose can withstand your operating environmental conditions.

  Molding methods: Medical injection molding and medical insert molding are two commonly used methods in the development of medical device prototypes, but not all plastic materials are compatible with the two methods. Before choosing a medical grade plastic material, it is important to determine which method to use.

Medical silicone products have been widely used clinically

Nowadays, silica gel has been widely used in the medical field. It has excellent biocompatibility, is non-toxic, non-irritating, non-allergic, and has little repulsive force to human tissues; it has good physical and chemical properties and can maintain its original Elasticity, softness and fluidity, and will not be degraded during contact, is a fairly stable inert material. Next, let's take a look at the characteristics of medical silicone products.

characteristic:

  1. Solid medical silicone rubber can replace bone or cartilage as tissue filler or scaffold material. Therefore, artificial joints and artificial tendons can be used to repair defects in limbs and joints. Plastic materials are used as materials to repair deformities of the face, ears and nose.

  2. Foam medical silicone rubber can replace human adipose tissue to repair deformities of facial tissue defects, such as hemifacial atrophy.

3. Membrane medical silicone rubber sheath can be used as a substitute; the intestinal fistula is closed by silica gel, which will not close the intestinal fistula and leak in the intestinal cavity, keep the intestine unobstructed, enteral nutrition, reduce complications and simplify the intestine Treatment of fistula.

  4. Liquid medical silicone rubber, also known as silicone oil, is a transparent liquid with low viscosity. Use a thick needle to inject silicone oil into the craniofacial deformity. It is easy to use and can be shaped without hospitalization. It can be treated in the outpatient department. In addition, medical silicone rubber is used clinically to make hydrocephalus drains to treat hydrocephalus. Replace the damaged mitral valve of the heart with a spherical artificial heart valve. The silicone contraceptive ring is safer, more convenient, reliable and effective. Silicone catheters, stomach tubes and catheters are less invasive and less irritating, and can be inserted into the human body for a long time, and have been widely used in clinical practice.

Reasons for the extensive use of glass instruments in laboratories

Glass has good transmission and light transmission performance, high chemical stability, and can obtain strong mechanical strength and thermal insulation effect according to different processing methods, and even can make the glass change color independently and isolate the strong light, so it is commonly used in all walks of life to meet different needs. Next, let's see why glass instruments are widely used in laboratories.

Glass instruments are widely used in laboratories because of its high chemical stability, thermal stability, transparency, mechanical strength and insulation. The glass instrument made of the excellent properties of glass is widely used in various laboratories, such as chemical laboratory, medical laboratory, biological laboratory, scientific research laboratory and teaching laboratory. The chemical stability of glass is good, but it is not completely free from erosion, but the degree of erosion meets certain standards. Because the glass is eroded and trace ions enter the solution and the glass surface adsorbs the ions to be determined in the solution, it is a problem that should be paid attention to in microanalysis. Hydrofluoric acid corrodes glass strongly, so it is impossible to use glassware to carry out experiments containing hydrofluoric acid. Alkali liquor, especially concentrated or hot alkali liquor, corrodes glass obviously. If the glass instrument for storing alkali liquor is a grinding instrument, the grinding mouth will stick together and cannot be opened. Therefore, the glass container can not store lye for a long time.

What are the applications of silicone products in the medical industry?

With the continuous deepening of the medical device industry's awareness of the medical materials used in products, the special properties of silicone products have expanded their application scope. As these properties become more widely known, new applications and expanding markets are driving the wider application of silicone in medical devices.

  The basic component of silicon materials, silicon is the most common and easily available element on the earth. Silicone is easy to be made into complex shapes and is chemically inert. Its practicality and excellent properties make it suitable for use in medical equipment from the beginning.

  Application of silicone products in the medical industry As the demand for home healthcare equipment and disposable equipment increases, the demand for silicone will also increase. The hygienic, hypoallergenic, easy-to-clean and disinfect characteristics of medical silicone products are beneficial to outpatient medical and health facilities.

  The growing trend of equipment miniaturization demand requires precise micro-models produced by injection molding machines, and at the same time increases the demand for silicone, because the properties of silicone will not be affected by the size of the molded product. Another area of ​​growth in R&D is the use of silica gel in composite products that combine silica gel and active ingredients.

Which silicone products are used in medical equipment

  Medical silicone products have played an important role in modern medicine, especially in the development and construction of medical devices. Medical-grade silicone products can be seen everywhere. In recent years, a variety of silicone medical products have been successfully trial-produced by the collaboration of hospitals, scientific research units and factories. Among the many synthetic rubbers, silica gel is the most common type, which is mainly manifested in the production and application of medical-grade silicone products in the medical field. It is tasteless and non-toxic, not afraid of high temperatures and resistant to severe cold. It is "comfortable" and "unchanging color" at 300 degrees Celsius and minus 90 degrees Celsius, and still retains its original strength and flexibility. Silica gel also has good electrical insulation, oxygen and aging resistance, light and aging resistance, mildew resistance, and chemical stability.

What should be paid attention to when producing glass test tube

Because of its rich variety, glass can be applied to various occasions, so it has a broad prospect and has always been favored by consumers. When choosing glass, we should not only pay attention to its price, but also pay attention to the different properties of various types of glass, and choose the type that is more suitable for our own use. In order to help everyone understand the application and production precautions of glass tubes, we have collected information and compiled this article, hoping to be helpful.

First, what should be paid attention to when producing glass tubes.

1) Rotation speed: In the process of centrifugal pipe expansion, the rotation speed and pipe diameter determine the centrifugal force. When the pipe diameter is certain, the higher the rotation, the greater the centrifugal force. Under the action of centrifugal force, the larger the pipe diameter, the slower the rotation speed. Therefore, the speed used in the pipe expansion process should be based on the diameter of the glass tube

        2) The wall thickness and the corresponding temperature are determined. In the process of electrothermal softening and air-pressure pipe expansion, the control of pipe diameter mainly relies on a set of sizing devices that rotate synchronously with the glass tube, which has a wider range of speed requirements.

Second, the application of hard glass tube

(1) Solid pyrolysis or dry distillation at high temperature

        (2) Reducing metal with reducing gas at high temperature

        (3) Reactor under heating conditions

        Precautions for use:

        (1) The hard glass tube is slightly inclined from high to low to prevent breakage

        (2) The heating is evenly moved from high to low and then fixed

        (3) If you need to use powdered solid gas, the flow rate should not be too fast

Reasons for the rising status of glass bottles

Glass bottles, while continuously entering various types of high-grade packaging markets as the main packaging containers for high-grade alcohol, drinks, and so on, have not forgotten to preempt their share in places with poor consumer ability.Has contributed to the fact that glass bottles have always occupied an important position in the packaging field. Glass packaging is a time-honored packaging material.Glass bottle packaging is likewise a conventional packaging container.With the continuous surge of various packaging materials in the market, glass bottle packaging still occupies a certain market share and has always been an important part of the packaging field.Thought his unique advantage was that other materials could not replace it.The characteristics of glass bottle packaging containers are: non-toxic and odorless, transparent, non permeable, low cost, aesthetic, re-use and other advantages.

The use method and precautions of household oxygen generator

What are the oxygen inhalation methods for home oxygen therapy

1. Nasal congestion and nasal cannula oxygen inhalation

This oxygen inhalation method is simple in equipment and convenient to use. There are two types of nasal congestion: single-plug and double-plug: The single-plug method uses a suitable model to plug in the vestibule of the nose, and it is in close contact with the nasal cavity (the other nostril is open), and only oxygen is injected when inhaling, so the oxygen concentration More stable. The double plug method is to place two smaller nasal congestion on both sides of the nostril at the same time. There is still a gap around the nasal congestion, and the patient can breathe air at the same time. The patient is more comfortable, but the oxygen concentration is not stable enough.

Nasal catheter method is to insert a catheter (commonly used urinary catheter) through the nostril into the back of the soft palate at the top of the nasal cavity. The oxygen concentration is constant, but after a long period of time, it will feel uncomfortable and easy to be blocked by secretions. Nasal congestion and nasal catheter oxygen inhalation are generally only suitable for low-flow oxygen supply. If the flow rate is relatively large, it will be intolerable due to the large flow rate and impact force, and it is easy to cause the airway mucosa to dry.

2. Mask oxygen method

Can be divided into open and closed mask method. The open type is to place the mask 1 to 3 cm away from the patient’s nose. The closed mask method is to tightly cover the mask on the nose and mouth and fix it with elastic bands. Suitable for severe hypoxia, the oxygen concentration can reach 40% to 50%. , It feels more comfortable, without mucosal irritation and dry blowing. However, the oxygen consumption is large, and there are disadvantages of inconvenience in eating and expectorating.

3. Transtracheal tube oxygen therapy

It is an oxygen supply method in which a thinner catheter is inserted into the trachea through the nasal cavity, also called intratracheal oxygen therapy. It is mainly suitable for chronic obstructive pulmonary disease and pulmonary fibrosis caused by chronic respiratory failure requiring long-term oxygen inhalation, but the general oxygen therapy effect is not good. Because the catheter is used to directly supply oxygen to the trachea, the curative effect can be significantly improved. Low-flow oxygen supply can achieve higher results, and the oxygen consumption is small.

4. Electronic pulse oxygen therapy

It is a new method, which can automatically deliver oxygen during the inhalation period through an electronic pulse device, and automatically stop oxygen delivery during the expiration period. This is more in line with the physiological state of breathing, and greatly saves oxygen. Suitable for nasal congestion, nasal catheter and intratracheal oxygen therapy.

5. Mechanical ventilation and oxygen supply method

That is, when various artificial respirators are used for mechanical ventilation, the oxygen supply device on the ventilator is used for oxygen therapy. The oxygen supply concentration can be adjusted according to the condition of the disease (21% to 100%). The oxygen source of oxygen therapy generally uses an oxygen cylinder, and a pressure gauge is installed to indicate the amount of oxygen in the bottle. A flow meter is installed when oxygen is supplied, and the oxygen flow is adjusted as needed.

How to use the family oxygen generator

1. Install the main engine as a floor type or install a pylon to hang it outdoors, and install a gas filter.

2. Nail the oxygen supply gusset on the wall or support as needed, and then hang the oxygen supply.

3. Connect the oxygen supply port with the oxygen supply tube, and connect the 12V power supply line of the oxygen supply to the 12V power supply line of the host. If multiple oxygen supplies are connected in series, only a three-way joint is needed to use the pipeline. The line buckle is fixed.

4. Plug the 220V power cord of the host into the wall socket, and the red light of the oxygen supply will be on.

5. Add pure water to the designated position in the humidification cup, and then install it on the oxygen outlet of the oxygen supply.

6. Set the oxygen delivery tube to the oxygen outlet of the humidification cup.

7. Press the oxygen supply start button, the green indicator light is on, and the oxygen generator starts to work.

8. According to the doctor's advice, adjust the flow to the desired position.

9. Hook up the nasal cannula or wear the mask to inhale oxygen according to the packaging instructions of the oxygen mask or nasal suction tube.

Precautions for using household oxygen inhaler

1. Patients who buy an oxygen generator should read the instructions carefully before using it.

2. When using the oxygen generator, avoid open flames to avoid fire.

3. The oxygen generator should be placed steadily, otherwise it will increase the noise of the oxygen generator.

4. The water level in the humidification bottle should not be too high (the water level should be half of the bottle body), otherwise the water in the bottle will easily escape or enter the oxygen suction tube.

5. When the oxygen generator is not used for a long time, please cut off the power supply, pour off the water in the humidifying bottle, wipe the surface of the oxygen generator clean, cover it with a plastic cover, and store it in a dry place without sunlight.

6. When the oxygen generator is turned on, do not place the flowmeter float on the zero position.

7. The home oxygen concentrator should work in a quiet, comfortable and hygienic environment, and the distance between it and the wall or surrounding objects is greater than 20 cm.

8. Pay special attention when filling the oxygen bag with the oxygen generator. After the oxygen bag is filled, you must first unplug the oxygen bag intubation, and then turn off the oxygen generator switch, otherwise it will easily cause the negative pressure of the humidification bottle to suck back. Enter the oxygen generator, causing the oxygen generator to malfunction.

9. During transportation and storage, it is strictly prohibited to place it horizontally, upside down, damp or direct sunlight.

10. When using a home oxygen concentrator for auxiliary treatment, in order to prevent the sudden power failure from affecting the patient, it is necessary to spare a cylinder of oxygen or generator for emergency use.

What is the difference between latex gloves and rubber gloves

1. What kind of gloves are latex gloves?

Latex gloves, also known as latex gloves, refer to gloves made of latex, a water dispersion system of rubber particles, as raw materials, and are a kind of hand protection. There are many types of latex gloves. According to the raw materials, they can be divided into five types: smooth latex gloves, hemp surface latex gloves, striped latex gloves, clear latex gloves and powder-free latex gloves; according to their purpose, they can be divided into disposable latex gloves, household latex gloves, There are four types of industrial latex gloves and medical latex gloves.

Latex gloves are characterized by abrasion resistance, puncture resistance, resistance to acid and alkali, grease, fuel, and various solvents. They have good oil resistance and non-slip. They are widely used in medical, beauty, and precision electronics fields.