Šuplja staklena kugla

Mikromjehurići, mikrosfere ili mjehurići zraka su drugi naziv za šuplje staklene mikrosfere. Debljina mu je obično 10% promjera kugle. Kemijski stabilan, nezapaljivo, neporozan, i vodootporan, ovo su najveće karakteristike laganih šupljih staklenih mikrosfera. Proizveden je od posebne sirovine, natrijev kalcijev borosilikat. Šupljina stakleni mikrobaloni također pružaju vodljivi premaz. Ove karakteristike omogućuju široku primjenu u vojnim primjenama, medicinski uređaji, polja elektronike i biotehnologije. Površina šuplje staklene kugle je vrlo glatka i ima sferni oblik, što je vrlo pogodno za protok tekućine.

Opis proizvoda

Postoje mnoge analogije sa šupljim staklenim mikrosferama, uključujući neobložene šuplje staklene mikrosfere. Karakteristika mu je da je vrlo male težine, ali njegova različita svojstva, kao što su kemijska svojstva, su vrlo stabilni. Kao dodatak, može smanjiti gustoću i poboljšati uzgon materijala.

Visoka otpornost na toplinu, kemijska otpornost i niska gustoća su prednosti šupljih staklenih mikrosfera. Tlačna čvrstoća šupljih staklenih mikrosfera određena je debljinom stijenke. Drugim riječima, veća je gustoća sfere, veća je njegova sposobnost podnošenja tlačne čvrstoće. Osim ovih osnovnih svojstava koja vrijede za većinu šupljih staklenih čestica, također nudimo izvrsna svojstva sferičnosti i točnost u promjeru i gustoći.

Staklene šuplje kugle

Postoje dvije vrste stakleni mikrobaloni | Staklene šuplje kugle : rutil i anataz TiO2. Omogućuju dobru katalitičku aktivnost pod UV zračenjem. Ovo može učinkovito smanjiti plinovite zagađivače. Ovaj visokokvalitetni butik materijal ima svojstva raspršivanja svjetlosti. Osobito prikladan za neke visokotemperaturne primjene u eksperimentalnoj dinamici fluida i industriji velocimetrije slika čestica.

Pružanje vodljivosti i zaštita neka su od svojstava koja naša optimizirana debljina vodljive prevlake pruža sfernim česticama.

Specifikacija

Gustoća sfernih čestica obično se kreće od 0,06g/c3 do 0,80g/c3, a veličina promjera kreće se od 5um do 180um.

Ostale kategorije šupljih staklenih mikrosfera, kao što je premaz cinkovog oksida, stakleni mikrobaloni, imaju prednost u pružanju visokog indeksa loma, ljepljivost i antibakterijska svojstva, kao i UV zaštitu i visoku vodljivost. Relativno jeftin vodljivi aditiv može zamijeniti ljude. Vrlo je lagan i vodljive su poniklane šuplje mikrosfere.

Vodljivi premaz na staklenim šupljim kuglama ima sposobnost kataliziranja i provođenja električne energije.

Pune staklene kugle

Ovo je šupljina, slobodno tečući prah bijelog izgleda. S kompletnim asortimanom i izvrsnim performansama, može se koristiti u područjima kao što je sigurnost na autocestama, polimerni dodaci, fini abrazivi i električna vodljivost. Ova vrlo fina veličina čestica nije prikladna samo za korištenje u sustavima na bazi vode, ali i u sustavima na bazi otapala.

Application of Hollow Glass Sphere in Sealants and Adhesives

In application fields, it is not only suitable for improving the fluidity of paints, but also improving the isolation of oil and gas, and reducing the density of paint adhesives, plastics and composites.

The use of hollow glass microspheres can improve the mold flow and dimensional stability of composite materials and plastics. Packing density of hollow glass microspheres: 0.10-0.40 g/cc Thermal conductivity: 0.038-0.060W/m.K Maximum compressive strength: 207MPa/30000Psi.

Glass Spheres (small)

Because our hollow glass beads are particularly hydrophilic, they are ideal for use in coating composites and the oil and gas exploration industry. In addition to being hydrophilic, hollow glass and microspheres also have the ability to clear oil, so they are widely accepted and used in adhesives, lubricants and some other composite materials.

Glass spheres | stakleni mikrobaloni

In some traffic coatings, such as roads, light reflection properties are required, and hollow glass beads just meet this requirement. U isto vrijeme, this additive is needed in some numbers and in thermoplastics and thermosetting plastics, mainly because it is needed to reduce the viscosity and maintain a stable flow. Hollow glass beads can also strengthen bathroom floors to make them slippery.

Hollow Glass Microspheres (Uncoated)

Stoga, the unique shape and size of hollow glass and microbeads, as well as its relatively low density and relatively high pressure resistance, enable it to prevent the loss of liquid and damage to the formation during the drilling process. This reduces the breakage of the stratum and enhances its pressure stability. Hollow glass beads also provide a very safe and healthy working environment, allowing fixed personnel to be less exposed to dust, improving its operational safety.

What is a Hollow Glass Sphere?

A hollow glass sphere is a type of ultralight inorganic nonmetallic powder material that takes on a micron-sized appearance resembling foam bubbles. These spheres are made from borosilicate glass particles and possess a smooth, spherical shape, which makes them particularly suited for applications involving liquid flow. They are chemically stable, noncombustible, and nonporous, exhibiting excellent resistance to water. These spheres are created through a proprietary formulation involving soda-lime borosilicate materials that ensure their inertness and chemical stability.

Silver Coated Hollow Glass Spheres |

Glass microballoons

Hollow glass spheres are small, lightweight particles made from borosilicate glass with a smooth and spherical structure, specially designed for applications involving liquid flow. Their chemical stability, lightweight nature, and resistance to water make them suitable for a range of industries.

What is the Use of Hollow Glass Sphere?

The use of hollow glass spheres encompasses a variety of applications across different industries. These are lightweight and possess a hollow interior, offer distinct advantages that make them valuable in various contexts.

Application of Hollow Glass Sphere in Drilling Fluids and Cementing Slurry

Cement Slurry and Oil Well Drilling Fluids

Hollow glass spheres are applied in development of lightweight cement and low-density oil well cementing slurry. Uključivanje ovih kuglica u formulacije cementa pridonosi smanjenju ukupne gustoće cementa uz zadržavanje njegovog strukturnog integriteta. Ovo su vrijedni aditivi za stvaranje tekućina za bušenje niske gustoće. Ove sfere, kada se doda u tekućine za bušenje, pomoći u smanjenju gustoće tekućine, što ga čini prikladnijim za različite uvjete bušenja. Ova je karakteristika vitalna u industriji nafte i plina, gdje je precizna kontrola gustoće tekućine za bušenje ključna za sprječavanje problema kao što su izbijanje bušotine i nestabilnost.

Primjena šuplje staklene kugle u plastici

Za plastiku ojačanu staklenim vlaknima, Smjesa za kalupljenje u obliku ploča i smjesa za kalupljenje u rasutom stanju

U primjenama poput plastike niske gustoće ojačane staklenim vlaknima, šuplje staklene kugle djeluju kao punila unutar kompozitne matrice, istiskujući teže materijale i rezultirajući kompozitom koji je iznimno lagan bez ugrožavanja njegove čvrstoće.

U SMC i BMC kompozitima, dodavanje šupljih staklenih kuglica dovodi do smanjenja gustoće dok pridonosi poboljšanim karakteristikama kalupljenja i kvaliteti površine. Jednolika raspodjela ovih sfera unutar kompozitne matrice dovodi do poboljšane mehaničke izvedbe i može olakšati proizvodnju zamršenih oblika i dizajna.

Smanjenje težine u proizvodnji proizvoda od najlona i poliamida

Dodavanje šupljih staklenih kuglica najlonskim polimerima poboljšava njihove karakteristike male težine, što ih čini posebno privlačnima za industrije u kojima je potrebno smanjenje težine. These spheres help maintain the structural integrity of the nylon material while simultaneously contributing to its overall weight reduction. Incorporating these spheres into nylon-based material can achieve a significant reduction in density without compromising the mechanical and thermal properties essential for functional performance.

For Sealants and Adhesives

The incorporation of hollow glass spheres in low density sealants can enhance flexibility, reduce shrinkage, and improve adhesion properties. These spheres act as reinforcing agents, aiding in maintaining the sealant’s integrity when subjected to stress, movement, or temperature changes. Its hollow structure enables them to disperse uniformly within the sealant for its workability and ensuring consistent performance.

In adhesives, dodatak šupljih staklenih kuglica pridonosi poboljšanoj fleksibilnosti i čvrstoći spoja. Ove sfere pomažu u stvaranju uravnoteženije formule ljepila koja može učinkovito lijepiti različite podloge, istovremeno pružajući otpornost na pucanje ili propadanje tijekom vremena. Jednolika raspodjela ovih kuglica unutar ljepljive matrice osigurava stabilan i pouzdan proces lijepljenja.

Premazi boje koji sadrže staklene mjehuriće

Za toplinsku izolaciju boje i premaza

Kada se integrira u toplinsko-izolacijske boje i premaze, šuplje staklene kugle stvaraju sloj zarobljenog zraka unutar materijala. Ovaj zarobljeni zrak djeluje kao toplinska barijera, sprječavanje provođenja topline kroz obloženu površinu. Obloženi supstrat postaje bolje opremljen za otpornost na promjene temperature, smanjenje prijenosa topline između različitih okolina. This characteristic makes hollow glass ball infused coatings particularly valuable for both indoor and outdoor applications, such as in buildings, industrial equipment, and pipelines.

Application of Hollow Glass Sphere in Thermal Insulation paints

For Construction Industry

In concrete and mortar, the inclusion of hollow glass spheres helps regulate the drying and curing process. As these materials set and harden, they often undergo warpage and shrinkage due to moisture loss. The incorporation of these spheres mitigates these issues by introducing internal voids within the material, which provide room for shrinkage to occur without causing detrimental cracks or deformations.

In polymer-based construction materials, hollow glass ball act as microsized reinforcements that help counteract the effects of warpage and shrinkage caused by temperature changes and material cooling. These spheres aid in maintaining dimensional stability and reducing the potential for distortion.

For Insulation and Buoyancy

Air is an excellent insulator, and when you add hollow glass spheres in your formulation, the insulation’s ability to resist heat transfer is significantly improved. This is particularly advantageous in construction, where insulated walls, ceilings, and roofs help regulate indoor temperatures and conserve energy. In industrial settings, these spheres contribute to the creation of thermally insulating coatings that can protect equipment and machinery from extreme temperatures.

Beyond insulation, the buoyant nature of hollow glass spheres makes them indispensable in applications requiring buoyancy control. When added to materials like flotation devices, marine composites, and underwater equipment, these spheres assist in achieving the desired buoyancy characteristics.

For Artificial Marble Manufacturing

When you replace traditional aggregates with hollow glass ball, the artificial marble becomes easier to handle during installation and transport. This weight reduction also allows for larger and more intricate designs without straining the supporting structures.

The incorporation of hollow glass spheres can also enhance the workability of the artificial marble mixture. The smooth and spherical nature of these spheres aids in achieving a consistent mixture and distribution, leading to a more uniform appearance in the final product. The spheres also contribute to reducing shrinkage and cracking during curing, improving the overall durability of the artificial marble.

Advantages of Tripletchem Hollow Glass Spheres

The advantages of Tripletchem’s hollow glass spheres offer a wide range of benefits that make them a valuable addition to various products and applications.

Glass bubble impart several benefits to thermoplastics

Pure White

The pure white color of these hollow glass microspheres from Tripletchem makes them highly versatile for applications where visual aesthetics and color consistency are important. They can seamlessly integrate into products and formulations that require an immaculate appearance and specific color requirements.

Low Density

The low density of hollow glass microspheres plays an important role in reducing the weight of products. When you add hollow glass microspheres in your products or formulations, the basic weight of the final product can be noticeably decreased, which is particularly advantageous in industries where weight reduction is a priority. Na primjer, manufacturing artificial marbles and many more.

High Loading Volume

If you formulate with of hollow glass spheres into formulations, manufacturers can effectively replace a significant portion of more expensive resin materials. The microspheres act as efficient fillers that occupy a substantial volume, reducing the amount of resin required to achieve the desired properties. This reduction in resin consumption directly translates to cost savings in raw material expenditures.

Good Fluidity and High Dispersion

High dispersion refers to the ability of these microspheres to evenly distribute within a given matrix or material. When added to formulations, they exhibit a propensity to disperse uniformly, ensuring that they are thoroughly integrated throughout the mixture. Good fluidity means that the hollow glass microspheres make the formulation mixed in ease with which these microspheres flow and move within a material. The microspheres’ smooth surface and well-engineered structure contribute to their ability to flow smoothly, allowing them to mix seamlessly with other components. It is important during manufacturing processes where materials need to be mixed, blended, or molded efficiently.

Glass bubble for high strength composite cores

Dimensional Stability

Warpage and shrinkage are common issues that occur as materials undergo drying, curing, or cooling processes. Formulating with hollow glass spheres mitigates these challenges by introducing controlled voids within the material. As the material undergoes changes, such as drying or cooling, these voids provide spaces for contraction to occur without causing undue stress or deformation. This controlled dimensional change minimizes the risk of warping, pucanje, or distortion, which can compromise the functionality and appearance of the final product.

Application of Hollow Glass Sphere in Emulsion Explosives

Heat and Sound Insulation

Hollow glass spheres contribute to the creation of paints and coatings that provide effective thermal barriers. When incorporated into such formulations, the hollow structure of the microspheres creates air pockets that impede the transfer of heat. These coatings can be applied to surfaces, such as building exteriors or industrial equipment, to minimize heat absorption and loss.

Tripletchem’s hollow glass spheres are utilized in automotive sealants to enhance heat insulation within vehicles. By incorporating these microspheres, manufacturers can produce sealants that effectively reduce heat transfer between different parts of the vehicle. The sound insulation properties of hollow glass spheres can also act as sound barriers which dampens the noise and reduce acoustic vibrations.

Corrosion, Fire and Conducting Resistance | hollow glass ball

Corrosion resistance is a critical feature in applications where materials are exposed to moisture, kemikalije, or corrosive agents. The inherent inertness of hollow glass spheres to these factors ensures that materials containing these microspheres maintain their integrity and durability over time. These microspheres also have the capacity to withstand high temperatures without undergoing combustion or releasing harmful fumes.

The non-conductive property of these microspheres is advantageous in industries dealing with electrical components and systems. Their insulating characteristics make them suitable for applications where electrical conductivity must be avoided to prevent short circuits, arcing, or other electrical hazards.

Stable Chemical Properties

Stable chemical properties enhance the predictability of product performance. Manufacturers can confidently use Tripletchem’s hollow glass spheres in their formulations, knowing that the microspheres will not undergo unexpected changes that could affect the end product’s quality or functionality.

If you are interested in Šuplja staklena kugla, molimo kontaktirajte nas sada.