Qingdao SOCO New Material Co.,Ltd.

The use of high-molecular-weight Super Absorbent Polymer in animal litter has revolutionized pet care. This advanced polymer quickly absorbs and retains moisture, effectively controlling odors and maintaining a dry environment for pets. The result is a more comfortable and hygienic space for animals, ensuring a cleaner living area and simplifying the task of pet owners. By incorporating SAP into animal litter, pet care products have become more efficient and pet-friendly, contributing to a positive experience for both pets and their owners.

High-molecular-weight absorbent materials, including Super Absorbent Polymer(SAP), are employed in the specialized field of chick rehydration. These materials are a key component in products designed to provide controlled hydration for chicks, particularly during the crucial early stages of their lives. The water-absorbing capabilities of SAP ensure a reliable and efficient means of delivering essential fluids to chicks, supporting their health and growth in poultry farming. Chick rehydration products featuring SAP demonstrate a commitment to animal welfare and optimal farming practices.

Potassium polyacrylate is employed in field crops to improve soil water retention. It acts as a soil hydrogel after absorbing water for agriculture, capturing and holding moisture in the soil. This enhances the efficiency of irrigation, reduces water wastage, and ensures a consistent water supply for crop growth, especially in drought regions.

When transplanting seedlings, potassium polyacrylate is utilized to create a moisture-retaining gel around the roots. This gel provides a protective environment for the seedlings during transplant, preventing dehydration and shock. This ensures a higher survival rate upon transplantation.

In adult trees, potassium polyacrylate aids in water management by retaining moisture in the root zone. This is particularly beneficial during dry periods, helping trees withstand drought stress. Additionally, it promotes optimal nutrient absorption, contributing to overall tree health and growth.

Potassium polyacrylate is applied in vegetable cultivation to enhance water absorption in the soil. By maintaining a consistent moisture level, it supports the healthy development of vegetable crops, increases yield, and reduces the frequency of irrigation, making the cultivation process more efficient.

In horticulture, potassium polyacrylate is utilized to improve water retention in the soil, ensuring a steady supply for various ornamental plants and flowers. This water-absorbing polymer contributes to the overall health and aesthetics of the horticultural landscape.

During lawn transplantations, potassium polyacrylate is employed to create a water-absorbing matrix around the roots of the transplanted grass. This minimizes transplant shock, promotes root establishment, and enhances the overall health and appearance of the newly transplanted lawn.

In greening projects, potassium polyacrylate is used to support the establishment of green spaces by improving soil water retention. This ensures sustainable growth of plants in urban areas, contributing to environmental conservation and enhancing the aesthetics of green projects.

The combination of superabsorbent polymer (SAP) and fertilizer, such as potassium polyacrylate, provides a dual benefit. It not only retains moisture in the soil but also facilitates controlled release of nutrients. This integrated approach improves the efficiency of nutrient uptake by plants, leading to healthier and more productive crops or vegetation.

Superabsorbent polymers (SAPs) help combat water scarcity in agriculture by absorbing and slowly releasing water, cutting irrigation needs by 30-50% while boosting crop yields by 15-25. SOCO develops eco-friendly SAPs, including fertilizer-infused and biodegradable options, to enhance drought resistance and sustainable farming.

The super absorbent polymer (SAP) contributes to solving moisture problems in various fields. Super absorbent resin is a polymer material that absorbs water hundreds to 1000 times its own weight and does not release water even under certain pressure.

Super Absorbent Polymer (SAP), also known as super absorbent material, is a type of polymer that can absorb and retain large amounts of water. Its unique water-absorbing and retaining properties make it widely used in agriculture, medicine, environmental protection, and other fields. With continuous technological advancements, the market demand for super absorbent polymers is increasing annually, especially in emerging fields such as the application of agricultural SAP, which is bringing more innovation and opportunities.

Citrus, being a popularly consumed fruit, requires meticulous water management during its cultivation process. Citrus trees have a high demand for water and need irrigation when the soil moisture content is below 60%. However, traditional irrigation methods such as furrow irrigation and sprinkling not only consume large amounts of water and require significant labor but are also challenging to manage. In the context of rising costs of labor, pesticides, and other expenses, it has become crucial for citrus farmers to find ways to reduce orchard management costs and improve planting efficiency.

Agricultural and forestry water retention agents, often referred to as soil moisturizers, plant transpiration inhibitors, or miniature underground reservoirs, are materials with unique properties. Fundamentally, they are high molecular compounds with a complex three-dimensional network structure, containing numerous highly hydrophilic groups capable of absorbing and retaining water hundreds of times their weight. In agriculture and forestry, by mixing these agents with soil, they can rapidly absorb water during rainfall or irrigation and lock the water within the molecular grid, preventing loss due to evaporation or infiltration, forming a long-lasting moisturizing layer. Especially under drought conditions, these water retention agents can slowly release water for plant roots to absorb, enhancing the plants' drought resistance.

In modern agriculture, the efficient use of water resources has become particularly important. Especially for crops with poor drought resistance (such as corn, wheat, cotton, and vegetables), water management directly affects yield and quality. When faced with drought weather, farmers are often puzzled about how to reduce the waste of irrigation water while ensuring normal crop growth. There are many methods to conserve water, and they are not complicated to operate. As long as the correct techniques are mastered, even in a drought environment, the challenge of tight water resources can be effectively addressed. Today, we share several practical crop water conservation methods to help you save water and increase production!

With the continuous enhancement of global environmental awareness and the deepening of the concept of sustainable development, various industries are seeking greener and more environmentally friendly innovative solutions. In the field of agriculture, Super Absorbent Polymer (SAP) has emerged as a new material, especially in fruit tree planting and soil moisture retention. SOCO Super Absorbent Polymer (SAP), with its excellent water absorption capacity and environmental friendliness, is becoming one of the key technologies in agricultural production. This article will delve into the important applications of Super Absorbent Polymers in modern agriculture, particularly their enormous potential in increasing fruit tree yields and soil moisture retention.

As the global population continues to grow and urbanization accelerates, traditional agriculture faces a series of challenges such as land resource tension, climate change, and water shortages. In this context, vertical farms, as a new agricultural model, are gradually becoming an innovative solution to these problems due to their efficient land use and resource-saving advantages. Vertical farms can not only provide sustainable food supplies for cities but also offer a broad space for agricultural technological innovation.

Organic agriculture, as an environmentally friendly and sustainable agricultural production method, has gained more and more favor among consumers. However, despite its significant ecological and health advantages, organic agriculture still faces many challenges in its global promotion. Breaking through these bottlenecks to achieve the goal of sustainable agricultural development has become an urgent issue within the industry. Fortunately, with continuous technological advancements, many innovative technologies and strategies are providing new possibilities for solving these problems.

As awareness of health and sustainability grows, organic agriculture is evolving from a niche practice to a cornerstone of the global agricultural and food industries. Whether it’s meeting consumer demand for healthier foods or addressing environmental concerns through reduced chemical inputs, organic farming delivers both economic and ecological value. However, the industry’s rapid expansion presents challenges, including high costs, technological barriers, and intense competition. How can stakeholders transform these challenges into opportunities?

The 16th Session of the Conference of the Parties of the United Nations Convention to Combat Desertification was Held in Riyadh, the capital of the Kingdom of Saudi Arabia. On December 9, local time, during the conference, the China Society of Desertification Control held a side event titled Scientific and Technological Innovation in Combating Desertification Supports Green and Sustainable Development” Side Event, which showcased China's successful experiences in combating desertification and engaged in discussions with representatives from around the world on issues related to desertification control, technological innovation, and high-quality development.

In the developing world, particularly in regions dependent on rain-fed agriculture, agricultural stakeholders confront a myriad of challenges, including erratic rainfall patterns, resource scarcity, and inadequate infrastructure. These issues pose a significant threat to agricultural productivity and sustainable development, with the potential to exacerbate the impacts of climate change. It is imperative that we devise and implement innovative, cost-effective agricultural strategies to enhance productivity and sustainability in these areas.

Climate change and water scarcity pose significant challenges to traditional farming methods.

As climate change and water scarcity increasingly challenge agricultural production, organic farms in drought-prone areas are feeling the impact acutely.

Have you ever wondered why your plants aren’t thriving even though your soil looks fine? Healthy soil is the foundation for plant growth, and improving it is essential for easier, more productive gardening. Here are some effective ways to boost soil quality and keep your plants growing strong.

According to statistics and forecasts by APO Research, the global hydrogel market sales in 2023 will be approximately $1.42 billion. It is expected to grow steadily with a compound annual growth rate (CAGR) of over 5.0% during the forecast period from 2024 to 2030. This growth trend is driven by the extensive application fields of hydrogels, including personal care, pharmaceuticals, agriculture, and biomedicine.

Flowers play a vital role in beautifying our environment and enhancing our quality of life. However, their cultivation and care require meticulous management, especially regarding water supply. With advancements in technology, SAP Soil Hydrogel (Super Absorbent Polymers) has emerged as an innovative solution in the flower cultivation field. These modern materials not only improve planting efficiency but also significantly enhance the quality of flower growth.

Super Absorbent Polymer (SAP) is a polymeric material with a three-dimensional network structure. Its molecular chains contain hydrophilic groups such as hydroxyl (-OH) and carboxyl (-COOH). It is synthesized from unsaturated monomers (e.g., acrylic acid, acrylamide) through a polymerization process involving crosslinking agents and initiators, resulting in functional polymer materials. Currently, there are many market classifications such as sodium polyacrylate, potassium polyacrylate, and polyacrylamide.

As global agriculture rapidly advances, the fertilizer industry plays a crucial role in securing food safety. However, the issues of high input and low efficiency of traditional fertilizers continue to plague farmers and agricultural enterprises. The application of Super Absorbent Polymers (SAP) offers a breakthrough solution for the fertilizer market, enhancing nutrient utilization significantly through its unique water absorption and retention capabilities, positioning it as a vital player in the future agricultural market.

Since the 21st century, with the strengthening of climate change, afforestation, drought resistance, and water-saving measures, the research and application of soil water-retaining hydrogel have played an important role in soil improvement, urban greening and barren slope afforestation, water and soil conservation, slope management, reclamation of abandoned mining areas, and the development of new types of water-retaining fertilizers.

Currently, hydrogels are the most promising materials in polymer and materials science. Due to their soft and tissue-like properties and high water content, hydrogels have a wide range of applications, such as in tissue engineering and wound dressings.

In recent years, with the development of hydrogels, particularly superabsorbent hydrogels, a new type of fertilizer has emerged, namely water-retaining slow/controlled-release fertilizers.

Globally, agricultural water shortage are becoming increasingly severe. Climate change and population growth have led to water resource shortages, which have become a key factor limiting agricultural development. According to the United Nations' 2023 World Water Development Report, approximately 2 billion people worldwide face drinking water security issues, with agricultural water use accounting for 70% of global water extraction. In response to this challenge, the advent of agricultural water retaining agents has not only effectively improved soil moisture utilization efficiency but also reduced water waste, playing a crucial role in the sustainable development of agriculture.

As water resources become increasingly scarce, hydrogel materials are becoming more important as soil conditioners in the agricultural sector, especially in areas with limited water supply.

Avocado, a nutrient-rich and uniquely flavored fruit, requires specific cultivation techniques to achieve high-quality yields.

With the continuous progress of agricultural science and technology, the research and development of agriculture super absorbent polymer materials is showing new trends and innovations.

Super absorbent polymers (SAPs) are being used in a wide range of applications in modern industry, including agriculture, medicine, hygiene and personal care.

In recent years, secondary soil salinization has become a significant global environmental concern, stemming from both natural processes and human activities.

Sodium polyacrylate, a highly functional polymer material, has found its way into various industries, playing a pivotal role in enhancing production processes and product quality. Its unique properties make it an indispensable additive in numerous applications.

The utilization of super absorbent polymer has revolutionized agricultural practices, particularly in terms of soil management.

Protecting the environment, plant, animal, and human health using natural strategies is a key objective for developed nations.

In the world of modern materials science, there is a special type of polymer that holds immense potential and versatility - the super absorbent polymer, commonly known as SAP. This material, a product of acrylate copolymerization, is a functional polymer with unparalleled water absorption and retention capabilities.

On March 15th, the CAC Agrochemical and Plant Protection Exhibition concluded successfully in Shanghai. In this grand agricultural industry event, Qingdao SOCO® New Materials stood out with its industry-leading soil water-retaining agent product series, becoming a major highlight of the exhibition.

CAC (China International Agrochemical&Crop Protection Exhibition) is a major international exhibition focused on agrochemicals and crop protection. It serves as a platform for companies and professionals in the agricultural industry to showcase products, technologies, and innovations related to crop protection and agrochemicals.

In recent years, the United Nations and national agricultural sectors have been grappling with the challenges posed by drought, driven by the growing impacts of climate change. As we witness an increase in the frequency and severity of droughts around the world, it is imperative to explore innovative solutions that can increase agricultural resilience and ensure food security.

Hydrogel is a type of gel that is composed of water and a three-dimensional network of polymer chains. The word "hydrogel" is derived from the combination of "hydro," meaning water, and "gel," which refers to a semisolid material.

An urban brownfield site, formerly occupied by industrial activities, required extensive remediation due to the presence of construction spoil waste contaminated with heavy metals and organic pollutants. The client, a property developer in USA, faced regulatory hurdles and community concerns, necessitating a robust solidification solution to address the environmental risks associated with the site.

Water is the lifeline of agriculture and a precious, non-renewable resource. However, water pollution is becoming increasingly severe, and agricultural water usage is plagued by issues of high consumption and low efficiency. Rivers and lakes are frequently facing crises, and the sight of drying-up landscapes is becoming more common. These problems undoubtedly pose a serious threat to the development of the agricultural sector, necessitating urgent solutions to ensure sustainable water resource utilization and protect the sustainable development of agriculture

As the largest rice crop in China, with the highest yield and total output, its perennial cultivation area and total output account for about 28% and 40% of China's grain crops.

Model Number Number of mesh Water absorption rate

Basic parameters SHN205: 5-20 mesh SHN220: 20-80 mesh

The application of water retention agents to combat soil and water loss on slopes is one of the most important tools. Water retention agent, also known as highly absorbent resin, super absorbent, solid water or polymeric absorbent, is a polymer with strong water absorption and water retention capacity made from a strong water absorbent resin. It can absorb a lot of water quickly and has the function of repeated water absorption. Absorption Water swells to hydrogel,it releases water slowly for seed germination and growing crops, thereby increasing soil water retention,improving soil structure, reducing deep water seepage and soil nutrient loss,and improving water utilization in greening project. Water holding agent is suitable for use in areas with low precipitation, irregular annual rainfall distribution and lack of irrigation water.

I. Basic parametersSHK205F: 5-20 meshSHF220F：20-80meshSecond, the characteristicsFast water absorption speedII. ApplicationSuitable for areas with rapid rainfall and short time.Crops that do not need a lot of water during the ripening period.

The name Super Absorbent Polymer was first translated from the Japanese, and the common international name is Super absorbent polymer (SAPs). Water retention agent was first developed in the 1960s by the U.S. Department of Agriculture Northern Research Institute using corn.

Object: Test the effect of SAP on the growth of oats at different times, and the drought resistance effect after adding SAPTime: October --- AprilCountry: ArgentinaExperimental conditions0.5 hectares without SAP

When it comes to "saline-alkali land", I believe most of you will think of a question like this reflexively:

Naturally sourced polymer-based hydrogels offer advantages over synthetic forms owing to their biocompatibility, physicomechanical and environmentally friendly properties.

Naturally sourced polymer-based hydrogels offer advantages over synthetic forms owing to their biocompatibility, physicomechanical and environmentally friendly properties.

First, let’s take a look at the distribution of agricultural GDP in South America. Next, let’s take a look at the climate in South America

Water-absorbent polymers or hydrogels are water-insoluble hydrophilic polymers, able to swell and absorb amounts of water, saline solutions, or physiological fluids as high as 10-1000 times their weight.

Super absorbent polymers (known as SAP) are water-insoluble polymer, cross-linked copolymer of acrylic acid. It is in the form of white, odourless granules. This water-absorbing polymer is produced by acrylic acid and a cross-liner solution through polymerization.

Hidrogel(Potassium polyacrylate) is a kind of extremely hydrophilic three-dimensional network structure gel. It swells rapidly in water and can maintain a large volume of water without dissolving in t...

Other names for potassium polyacrylate:potassium salt,sap for agriculture, Agricultural hydrogel HS Code: 390690

As a chemical raw material, potassium polyacrylate is widely used in agriculture and forestry water-retaining agents and industrial additives, and its price is also affected by many factors.

Sodium polyacrylate is a chemical polymer that is widely used in a variety of consumer products for its ability to absorb several hundred times its mass in water. Sodium polyacrylate is made up of multiple chains of acrylate compounds that possess a positive anionic charge, which attracts water-based molecules to combine with it, making sodium polyacrylate a suber-absorbent compound. This polymer is highly toxic when inhaled or ingested, causing damage to your eyes, skin and lungs. If you have accidentally inhaled or ingested sodium polyacrylate, seek medical attention immediately.

Planting Gel is cutting edge technology, which delivers a scientifically formulated blend of Seasol, Powerfish and Water directly into the root zone of plants/turf at the critical time of planting. Planting gel, developed with advanced technology from Seasol International, incorporates a unique blend of water and nutrients injected directly into the gel during manufacturing, providing optimal growth conditions for plants. Once placed in the root zone the Gel slowly releases water and nutrient, stimulating root growth, reducing transplant shock and aiding plant establishment. With a working life of up to 5 years, the Gel constantly recharges itself, ensuring an ongoing supply of water and water soluble nutrient is available on demand to plants/turf through their roots. Available in 5kg & 10kg tubs.

The use of water holding amendments like hydrogel polymers material for enhancing water and nutrient use efficiency will become more important over time, especially in arid and semiarid regions with limiting water availability, the hydrogel able to retain water and plant nutrients and release it to the plants when surrounding soil near the root zone of plants start to dry up.

Hydrogel agriculture technology uses insoluble gel-forming polymers to improve the water-holding properties of different soils, such as clays and sandy loams. This can increase water-holding and water use (up to 85% for sand), improve soil permeability, reduce the need for irrigation, reduce compaction, soil erosion, and leaching, and improve plant growth.

Port: Qingdao, China Production Capacity: 500000kg/Year Payment Terms: L/C, T/T, D/P, Western Union, Paypal, Money Gram CAS No.: 25608-12-2 Formula: (C3h6o2)N(C3h5ko2)M EINECS: 65-4568-1565 Molecular Principal Chain: Heterochain Polymer Color: White Certification: MSDS From SGS

China Superabsorbent Polymers Potassium Polyacrylate SAP - A polymer material with good water absorption and water-holding capacity ( hundred times of its own weight ) - The main uses of SAP are absorbing, retaining or to block liquid. - It can be mainly divided into three major categories which are Hygiene grade, Agriculture grade and Industry grade.

It is a kind of high molecular polymer with a hydrophilic group. It appears odorless and tasteless white granule. It will form hydrogels of 100-200 times water absorption while swelling slowly in water.

Potassium Polyacrylate is a kind of super absorbent polymer(SAP), a water-absorbent material with good water-holding capacity. It can absorb water up to several hundred times of its own weight, and turn into the natural gel from within seconds. SAP can be mainly divided into three major categories which are Hygiene grade, Agriculture grade, and Industry grade. The main uses of SAP are absorbing, retaining, or block liquid.

Water crystal gel or water beads or gel beads is any gel which absorbs and contains a large amount of water. Water gel is usually in spherical form and composed of a water-absorbing polymer such as a polyacrylamide (frequently Poly(methyl acrylate) or Sodium polyacrylate). Sometimes referred to as super absorbent polymer (SAP) or, in dry form, as slush powder.

Super Absorbent Polymers, also known as SAP, hydrogel, absorbent polymers, absorbent gels, water retaining agent, super slurpers, water gel, is a new type of macro molecular synthetic water absorbing polymer material. It has a water uptake potential as high as 100,000% of its own weight in a short period of time by osmosis and form granules in soil to enhance soil properties. SAPs are generally white sugar-like hygroscopic materials that swell in water to form a clear gel made of separate individual particles and can retain moisture even under pressure without risk of conflagration or rupturing/blasting.

Powder Agriculture Hydrogel, Water Crystals for Plants improves the water holding capacity of the soil and helps plants go through dry seasons. It is made of Potassium polyacrylate, a potassium-based super absorbent polymer(SAP powder) for agriculture.

There are two type super absorbent polymer, so choose a reliable Agricultural Potassium Polyacrylate Manufacturer is very very important, to avoid that you order the wrong Agricultural Potassium Polyacrylate

Until the 1980’s, water absorbing materials were cellulosic or fiber-based products. Choices were tissue paper, cotton, sponge, and fluff pulp. The water retention capacity of these types of materials is only 20 times their weight – at most.