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What Is An Industrial Oven And Which Industries Use It? Discover Versatile Thermal Processing Solutions

Learn about industrial ovens for curing, drying, sterilizing, and more in electronics, pharmaceuticals, food, and manufacturing industries.

Which Industries Can Benefit From Using The Circulating Water Multifunctional Vacuum Pump? Discover Clean, Efficient Vacuum Solutions

Learn how oil-free, water-saving vacuum pumps benefit pharmaceuticals, biochemistry, and more. Enhance lab efficiency with sustainable technology.

What Role Do Refractories Play In A Rotary Kiln? Protect, Insulate, And Boost Efficiency

Learn how refractory linings in rotary kilns protect steel shells, provide thermal insulation, and enhance energy efficiency for high-temperature processes.

What Material Options Are Available For Indirect-Fired Rotary Kilns? Choose The Right Shell For Your Process

Explore carbon steel, stainless steel, specialty alloys, and more for indirect-fired rotary kilns. Optimize for heat, corrosion, and abrasion resistance in your lab.

What Are Some Common Applications Of Rotary Kilns In Today's Economy? Discover Versatile Industrial Heating Solutions

Explore rotary kiln uses in cement, metallurgy, waste management, and more. Learn how they enable calcination, pyrolysis, and resource recovery for diverse industries.

What Are The Challenges Associated With Direct-Fired Rotary Kilns? Balancing Efficiency Vs. Control And Purity

Explore key challenges of direct-fired rotary kilns, including temperature control issues, contamination risks, and emission management for industrial processes.

How Are Indirect-Fired Rotary Kilns Applied In Chemical Processing? Achieve Purity And Precision In Thermal Transformations

Explore how indirect-fired rotary kilns ensure product purity, enable precise chemical reactions, and control processing atmospheres for sensitive materials in chemical industries.

What Industries Commonly Use Indirect-Fired Rotary Kilns? Essential For Controlled Processing

Discover industries using indirect-fired rotary kilns for precise atmosphere control in chemical, energy, waste, and materials processing.

What Are The Advantages Of Pvd? Achieve High-Performance, Durable Coatings

Discover PVD coating benefits: high purity, durability, superior adhesion, and eco-friendliness for industries like tools, electronics, and decor.

What Are The Advantages Of Pvd Coating? Achieve Precision, Purity, And Eco-Friendly Performance

Discover PVD coating benefits: low-temperature application, high purity, strong adhesion, and environmental safety for heat-sensitive materials and precision needs.

What Factors Should Be Considered When Selecting Vacuum Press Equipment? Key Insights For Optimal Performance

Learn critical factors for choosing vacuum press equipment, including material needs, system components, and cost considerations for better lamination and forming.

How Do Alumina Ceramic Tubes Compare To Quartz Ceramic Tubes In Terms Of Thermal Properties? Choose The Right Tube For High-Temp Success

Compare alumina vs. quartz ceramic tubes: alumina excels in thermal shock resistance and durability, while quartz offers superior purity and stability for sensitive applications.

What Are The Electrical Properties Of Alumina Tubes? Discover Superior Insulation For Extreme Conditions

Learn about alumina tubes' high dielectric strength, low loss, and stability for high-voltage and high-temperature electrical insulation applications.

What Are The Common Uses For Alumina Ceramic Tubes? Ideal For High-Temp, Insulation, And Corrosion Resistance

Explore common uses of alumina ceramic tubes in high-temperature furnaces, sensor protection, and electrical insulation for industrial and lab applications.

What Is Alumina And How Is It Derived? Discover Its Role In Advanced Materials And Production

Learn about Alumina (Al₂O₃), derived from bauxite via the Bayer process, and its uses in aluminum production and high-performance ceramics.

How Does Mpcvd Achieve High Growth Rates For Diamond Synthesis? Unlock Rapid, High-Quality Diamond Growth

Learn how MPCVD uses high microwave power and pressure for fast diamond synthesis up to 150 μm/h, ensuring purity and control for superior results.

What Are The Fundamental Principles Behind Induction Heating? Unlock Efficient, Non-Contact Heat For Your Lab

Learn how electromagnetic induction and the Joule effect enable precise, rapid heating in metals for industrial and laboratory applications.

What Is The Significance Of Stable Temperature Control In Mpcvd? Ensure High-Quality Diamond Growth

Learn how stable temperature control in MPCVD ensures precise chemical reactions, plasma stability, and defect-free diamond growth for superior material quality.

What Are The Key Components That Need Regular Cleaning In Mpcvd Equipment? Ensure Optimal Performance And Longevity

Learn essential MPCVD cleaning tips for plasma chamber, gas lines, and vacuum systems to maintain high-quality deposition and prevent process drift.

How Can Adjustments Compensate For Changes In Mpcvd Device Parameters? Master Frequency And Phase Tuning For Stable Plasma

Learn how adjusting microwave frequency and phase compensates for MPCVD parameter changes, ensuring stable plasma and efficient diamond deposition in resonant systems.

In Which Industries Is Mpcvd Commonly Used? Essential For High-Performance Electronics, Optics, And More

Explore MPCVD applications in electronics, optics, cutting tools, and biomedical fields for superior material purity and performance in demanding industries.

Why Are Alloys Used In Electrical Heating Devices? Discover The Key To Durable, Efficient Heat Generation

Learn why alloys like Nichrome and Kanthal are essential for high electrical resistance and oxidation resistance in heating elements, ensuring longevity and performance.

What Are The Key Properties Of Sc Type Silicon Carbide Heating Elements? Achieve Superior Temperature Uniformity

Explore SC Type SiC heating elements' single spiral design, high thermal stability, and uniform heating for industrial furnaces.

What Factors Influence The Choice Of Alloy For A Heating Element? Ensure Optimal Performance And Longevity

Learn how operating temperature, chemical atmosphere, and electrical resistance affect heating element alloy selection for durability and efficiency.

How Does Induction Heating Improve Plastic Injection Molding? Boost Efficiency, Quality, And Speed

Discover how induction heating enhances plastic injection molding with energy savings, faster cycles, and superior part quality for better production outcomes.

What Are Some Applications Of Mpcvd? Unlock High-Purity Diamond For Advanced Engineering

Explore MPCVD applications in cutting tools, thermal management, optics, electronics, and biomedical devices. Learn how high-purity diamond enables next-gen technology.

Where Is The Target Material Placed In An Induction Heater And What Happens To It? Discover The Science Of Non-Contact Heating

Learn how induction heating places materials in a coil for rapid, precise heating via eddy currents, ideal for metals and industrial applications.

In What Ways Does Induction Heating Promote Resource Efficiency? Achieve Precision, Speed, And Sustainability

Discover how induction heating's 90% energy efficiency and precise heat control minimize waste, reduce costs, and support decarbonization goals.

How Does Induction Heating Improve Quality Control In Manufacturing? Achieve Unprecedented Repeatability & Reduce Defects

Discover how induction heating ensures precise temperature control, eliminates warping, and prevents contamination for superior manufacturing quality.

What Safety Benefits Does Induction Heating Provide In The Workplace? Achieve A Flameless, Contained Heating Process

Discover how induction heating's flameless, localized nature enhances workplace safety by eliminating open flames, fumes, and ambient heat risks.

Why Is Induction Heating Faster Than Traditional Methods? Achieve Instantaneous, Internal Heat Generation

Discover how induction heating's direct energy transfer creates rapid, internal heat for faster production, superior precision, and higher quality.

What Is The Significance Of Good Electrical Conductivity In Graphite Heating Elements? The Key To Efficient High-Temp Heating

Learn why graphite's unique electrical conductivity is crucial for efficient, high-temperature resistive heating in vacuum and inert atmosphere furnaces.

What Makes Graphite Heating Elements Resistant To Thermal Shocks? Key Properties Explained

Discover how graphite's low thermal expansion and high conductivity prevent thermal shock failure, ideal for rapid heating cycles in high-temp furnaces.

How Does Induction Heating Differ From Conventional Heating Methods? Unlock Speed, Precision & Efficiency

Induction heating generates heat internally for unmatched speed & control vs. conventional external heating. Learn the key differences & benefits.

Why Is It Necessary To Pre-Bake Vacuum Chambers To 10^-10 Mbar? Ensure High Rrr In Niobium Thin Films

Learn why ultra-high vacuum (UHV) pre-baking is essential for niobium thin films to prevent impurities and achieve high Residual Resistance Ratio.

What Function Do High-Strength Graphite Molds Serve? Essential Roles In Vacuum Hot Pressing Aluminum Matrix Composites

Learn how high-strength graphite molds enable pressure transmission, uniform heating, and precision forming in vacuum hot pressing sintering.

Why Use A Vacuum Oven For Composite Fillers? Protect Material Integrity & Prevent Oxidation

Learn why vacuum ovens at 100°C outperform blast ovens for drying fillers by preventing oxidation and preserving nanoparticle structure.

What Role Does A High-Temperature Ceramic Crucible Play In The Pyrolysis Synthesis Of Biochar? Ensure Pure Lab Results

Learn how high-temperature ceramic crucibles ensure purity, thermal stability, and uniform heat transfer in biochar pyrolysis synthesis.

What Is The Purpose Of Employing Ozone (O3) Treatment Following The As-Ald Of Al2O3? Boost Film Purity And Density

Learn how Ozone (O3) treatment purifies AS-ALD Al2O3 films by removing organic ligands and densifying the oxide layer for superior device performance.

What Role Does A High-Pressure Autoclave Play In The Synthesis Of The (Niznmg)Mon Precursor? Achieve Structural Precision

Learn how high-pressure autoclaves enable hydrothermal transformation to create high-surface-area (NiZnMg)MoN nanowire arrays for advanced catalysis.

What Is The Technical Purpose Of A Vacuum Distillation System In Vmpps Synthesis? Enhance Polymer Weight And Purity

Learn how vacuum distillation drives VMPPS synthesis by removing methanol by-products to achieve high molecular weight and material stability.

What Is The Purpose Of Using A High-Purity Ceramic Crucible With A Sealed Lid During The Thermal Treatment Of Biochar?

Learn how high-purity ceramic crucibles with sealed lids prevent combustion and ensure high carbon retention during biochar pyrolysis.

Why Is A High-Purity Alumina Corundum Crucible Preferred For Melting? Achieve High-Precision Research Integrity

Discover why 99% high-purity alumina corundum crucibles are essential for oxide particle injection studies, offering inertness and erosion resistance.

Why Is A Ceramic Crucible Necessary For The Thermal Processing Of Silica Extracted From Sugarcane Bagasse?

Discover why ceramic crucibles are vital for silica extraction from sugarcane bagasse, ensuring maximum product purity and thermal endurance.

Why Must A Vacuum System Maintain 3.6 Mbar For Plasma Nitriding? Master Precision Surface Hardening

Learn why 3.6 mbar is critical for plasma nitriding, from extending mean free path to maximizing ion energy for uniform material hardening.

What Are The Primary Functions Of A High Vacuum Pump System Within A Cvd Graphene Process? Ensure High-Purity Synthesis

Learn how high vacuum systems control purity, prevent oxidation, and regulate layer thickness in CVD graphene production.

What Are The Advantages Of Combining Vacuum Hot Rolling With Small Hole Vacuuming? High-Bonding Clad Plate Production

Discover how vacuum hot rolling and small hole vacuuming achieve superior metallurgical bonding in titanium-steel clad plates at lower costs.

What Is The Role Of A Vacuum Pass-Box And A High-Capacity Vacuum Pump? Ensuring Safety In Battery Recycling

Learn how vacuum pass-boxes and high-capacity pumps create an oxygen-free airlock to prevent combustion during spent lithium-ion battery processing.

Why Is A High-Pressure Autoclave Essential For Nanomaterials? Unlock Superior Crystallinity And Quantum Yield

Learn how high-pressure autoclaves drive solvothermal synthesis by exceeding boiling points to create high-quality quantum dots and nanowires.

What Is The Specific Purpose Of Using A Vacuum Oven For Mesoporous Bi2Se3? Enhance Purity And Pore Access

Learn how vacuum ovens prevent oxidation and remove solvents like THF from mesoporous Bi2Se3 to ensure structural integrity and high performance.

What Are The Technical Characteristics Of Physical Vapor Deposition (Pvd) Equipment For Perovskite? Precision Thin Films

Learn how PVD equipment enables solvent-free, high-precision perovskite film fabrication through vacuum phase transformation and thermal evaporation.

How Does A Rotary Evaporator Contribute To The Concentration Phase Of Tio2 And Zro2 Pastes? Achieve Precision Viscosity

Learn how rotary evaporators use vacuum distillation to concentrate TiO2 and ZrO2 pastes at low temperatures for screen printing.

Why Is The Use Of High-Alumina Crucibles Essential For Ncm811? Ensure Purity In High-Nickel Cathode Synthesis

Learn why high-alumina crucibles are vital for NCM811 sintering: preventing lithium corrosion and ensuring purity at temperatures above 800°C.

What Role Does A Ceramic Crucible Play In The Induction Melting Process Of Metals? Key Benefits & Performance Factors

Learn how ceramic crucibles provide magnetic transparency, high-temp stability, and purity for efficient induction melting of metals.

What Are The Advantages Of Using Vacuum Filtration Systems For Calcium-Based Perrhenates? Expert Stability Guide

Learn how vacuum filtration accelerates slurry separation for calcium-based perrhenates, preventing moisture absorption and ensuring crystal purity.

What Technical Considerations Apply To Using A Precision Laboratory Hot Plate? Master K2Ca3(Reo4)8·4H2O Synthesis

Learn why thermal uniformity and 20% volume control are critical for K2Ca3(ReO4)8·4H2O synthesis to prevent decomposition and ensure crystal quality.

What Is The Function Of A Rotary Evaporator In The Recovery Of Formic Acid Lignin? Preserve Quality & Boost Efficiency

Learn how rotary evaporators recover formic acid lignin by lowering boiling points under vacuum to prevent thermal degradation at just 60°C.

What Are The Advantages Of Using A Vacuum Drying Oven For Co-Fe-Zif Particles? Preserve Structural Integrity.

Learn why vacuum drying is essential for Co-Fe-ZIF particles to prevent oxidation, protect pore structures, and maintain chemical purity.

Why Are Fly Ash Geopolymer Specimens Subjected To 60 °C Drying? Master Accelerated Curing For Maximum Strength

Learn why 60 °C thermal treatment in industrial ovens is essential for geopolymer gelation, structural stability, and superior mechanical strength.

Why Is A Vacuum Or Inert Gas Environment Required During Ball Milling? Protect Your Nanocrystalline Alloy Purity

Discover why vacuum or inert gas is essential in ball milling to prevent oxidation and ensure accurate microstructure analysis in AlCoCrFe alloys.

Why Is A Teflon Lining Required For High-Pressure Autoclaves? Ensure Purity In High-Entropy Oxide Synthesis

Learn how Teflon linings protect autoclaves from corrosion and prevent metallic contamination in large-scale high-entropy oxide preparation.

What Is The Necessity Of Vacuum Drying Equipment For Ball-Milled Powders? Ensure Purity & Density In Ceramics

Learn why vacuum drying is essential for ball-milled ceramic powders to prevent oxidation, eliminate defects, and maintain material purity.

Why Must Naf And Kf Raw Materials Be Processed In A Vacuum Oven For Funak Synthesis? Ensure Purity And Safety

Learn why NaF and KF require 300°C vacuum processing to eliminate moisture, prevent corrosion, and ensure pure FUNaK synthesis.

What Is The Significance Of Using A Vacuum Saturation Device For Aas Concrete? Ensure Valid Chloride Ion Testing

Learn why vacuum saturation is critical for AAS concrete chloride tests to eliminate moisture variables and accurately measure pore connectivity.

What Role Does A Reactive Atmosphere Like Nitrogen Play In Pfs? Enhance Titanium Dioxide Surface Treatment

Learn how reactive nitrogen atmospheres in Plasma Flash Sintering (PFS) transform titanium dioxide surfaces into titanium nitride.

What Are The Structural Functions Of The Dual-Chamber Quartz Glass Container? Optimize Magnesium Alloy Vapor Analysis

Learn how dual-chamber quartz containers stabilize metal vapors and enable precise chemical equilibrium for magnesium alloy vapor determination.

Why Is A Laboratory Oven Required For Drying Samples At 80°C For Moo3/Ti-Felt? Ensure Electrode Structural Integrity

Learn why 80°C oven drying is critical for MoO3/Ti-Felt electrodes to stabilize nanostructures and prevent damage during high-heat calcination.

Why Are Flexible Graphite Gaskets Utilized For Sealing In Lif-Bef2 Molten Salt Experiments? High-Resilience Solutions

Discover why flexible graphite gaskets are essential for LiF-BeF2 experiments, offering unmatched chemical resistance and thermal stability.

Why Is A Vacuum Suction System Required During The Exhaust Stage Of Rice Straw-Based Charcoal Carbonization?

Learn why a vacuum system is essential for rice straw carbonization to maintain 100 Pa pressure, ensure purity, and protect precision equipment.

What Function Does A Vacuum Pump Perform In Simulated Vacuum Refining? Optimize Aluminum Alloy Purity & Defect Analysis

Learn how vacuum pumps control pressure to remove impurities, prevent oxidation, and enable defect analysis in aluminum alloy refining simulations.

How Does A Vacuum Distillation System Function In Ree Extraction? Master Lme Separation With Precision

Learn how vacuum distillation separates magnesium solvents from rare earth elements using boiling point differentials and high-temp vacuum systems.

How Does Oxygen-Enhanced Alkaline Thermal Treatment Benefit High-Purity Cellulose Pulp? Achieve Superior Fiber Yield

Learn how oxygen-enhanced alkaline thermal treatment uses oxidative bleaching to remove lignin and ash while preserving cellulose fiber integrity.

Why Are A Blast Drying Oven And A Freeze Dryer Both Necessary For Go Nanofibers? Essential Drying Synergy

Learn why graphene oxide nanofibers require both oven and freeze drying to prevent structural collapse and ensure high-performance wave absorption.

What Role Do Vacuum Pumps And Chambers Play In The Reduced Pressure Test? Mastering Aluminum Quality Control

Learn how vacuum pumps and chambers amplify hydrogen defects in aluminum alloys during Reduced Pressure Testing (RPT) for superior metal quality.

What Is The Purpose Of Mixing Aluminum And Iron Powders At A Specific Atomic Ratio? Optimize Al-Fe Alloy Phases

Learn why a 2:1 atomic ratio is critical in Al-Fe alloy preparation to ensure the symbiosis of Al2Fe and Al5Fe2 for advanced structural analysis.

What Is The Role Of A Rotary Evaporator In The Extraction Of Isopulegyl Acetate? Protect Purity And Stability

Learn how rotary evaporators use vacuum decompression to isolate isopulegyl acetate by preventing thermal decomposition and isomerization.

Why Is A Vacuum Drying Oven Required For Precursor Mixtures? Achieve Stable, High-Quality Powder Processing

Learn why vacuum drying ovens are essential for precursor mixtures: prevent oxidation, lower boiling points, and stop powder agglomeration effectively.

What Is The Role Of Zirconium Particles As A Getter In Arc Melting? Ensure Pure La(Ru1-Xfex)3Si2 Synthesis

Learn how zirconium getters act as oxygen scavengers in arc melting to protect rare earth metals and ensure precise stoichiometry for your samples.

Why Is A Vacuum System With Argon Protection Required For Melting Zirconium Alloys? Ensure Pure Hydrogen Storage.

Learn why vacuum and high-purity argon are critical during zirconium alloy melting to prevent oxidation and preserve hydrogen storage capacity.

What Role Do Ceramic Crucibles Play In The Initial Stages Of Coating? Ensure High-Purity Metal Melts Today

Learn how ceramic crucibles prevent contamination and manage thermal shock in the initial stages of low-melting-point metal coating processes.

Why Is The Selection Of Crucibles With Specific Internal Linings Necessary? Protect Purity In Superalloy Melting

Learn why specialized crucible linings are critical for melting nickel-based superalloys to prevent contamination and survive vacuum erosion.

What Is The Mechanism Of Using Tecl4 As A Gaseous Transport Agent? Grow High-Integrity Single Crystals With Ease

Learn how TeCl4 chemical vapor transport (CVT) bypasses slow solid-state diffusion to grow high-integrity, large-scale single crystals in furnaces.

Why Is High-Purity Graphite Preferred For Silicon Melt Stirrer Blades? Ensure Purity In High-Temp Monitoring

Discover why high-purity graphite is the top choice for stirrer blades in silicon melt monitoring, offering thermal resilience and zero contamination.

What Is The Function Of A Water-Cooled Copper Crucible? Master High-Purity Alloy Synthesis With Kintek

Learn how water-cooled copper crucibles enable contamination-free vacuum arc melting for high-entropy alloys through the self-crucible mechanism.

What Are The Advantages Of Using Magnetron Sputtering Equipment Compared To Mbe? Scalable 2D Transistor Solutions

Compare magnetron sputtering and MBE for fluoride thin films. Learn how sputtering offers better scalability and cost-efficiency for 2D transistors.

What Is The Primary Function Of A Microwave Plasma Chemical Vapor Deposition (Mpcvd) System In Al2O3/Diamond Mos? Get It Here

Learn how MPCVD systems enable high-precision p-type diamond epitaxial growth for Al2O3/diamond MOS capacitor and MOSFET channel fabrication.

How Does A Constant Temperature Drying Oven Contribute To Mgtio3-Catio3 Ceramic Slurry? Optimize Your Precursor Quality

Learn how precise drying in laboratory ovens prevents chemical segregation and agglomeration in MgTiO3-CaTiO3 ceramic slurries for superior results.

What Is The Function Of High-Precision Molds And Laboratory Presses In Llto Preparation? Ensure Material Consistency

Learn how high-precision molds and laboratory presses provide structural consolidation and green strength for LLTO ceramic electrolyte pellets.

What Is The Purpose Of Maintaining High-Purity Argon Gas In Vacuum Induction Melting? Stabilize Your Steel Composition

Learn how maintaining argon pressure during vacuum induction melting suppresses carbon loss and ensures precise metallurgical composition.

What Is The Role Of A Mechanical Vacuum Pump In The Preparation Of Feal Alloys? Achieve 10⁻² Pa For Pure Synthesis

Learn how mechanical vacuum pumps ensure chemical stability and prevent oxidation by reaching 10⁻² Pa in FeAl alloy induction melting processes.

What Is The Importance Of A High Vacuum Pumping System In Fgh96 Alloy Degassing? Ensure Superior Material Integrity

Learn how high vacuum systems (1.0 x 10^-3 Pa) prevent oxide films and internal bubbles in FGH96 alloy powder degassing and encapsulation.

What Is The Necessity Of Maintaining A Vacuum Level Of Approximately 1 Pa During The Recovery Of Selenium-Based Devices?

Learn why a 1 Pa vacuum is critical for selenium recovery, ensuring linear vapor flow, high deposition speed, and maximum material purity.

What Are The Process Advantages Of Using An Evaporation System With A Rotating Stage For Tmo Films? Achieve Uniformity

Learn how rotating stages eliminate non-uniformity in TMO deposition, ensuring precise thickness for MoO3/WO3 films and 2D material synthesis.

What Are The Advantages Of Cvd Vs. Powder Methods For Catalysts? Unlock Binder-Free, High-Performance Electrode Growth.

Learn why the CVD route outperforms traditional powder methods by eliminating binders, lowering resistance, and maximizing catalyst active sites.

What Is The Core Logic Of Using Vacuum Coating For Energy Equipment? Boost Wear And Heat Resistance Effectively

Learn how vacuum coating processes enhance energy components through microstructural control, multi-phase deposition, and thermal stability.

What Is The Significance Of The Vacuum Pressure Control System In The Cvd Coating Process For Powders?

Learn how vacuum pressure control in CVD optimizes mean free path and nucleation to ensure dense powder coatings and reduce material waste.

Why Is A Precision Mass Flow Controller Essential For Gan Thin Films? Achieve High-Purity Semiconductor Growth

Learn how precision mass flow controllers (MFC) ensure stoichiometric balance, uniform thickness, and stable pressure in GaN thin film synthesis.

What Role Does A Rotary Evaporator Play In Microalgae-Based Nanomaterials? Protect Bio-Reductive Activity For Synthesis

Learn how rotary evaporators preserve delicate microalgae metabolites via low-temperature vacuum concentration for cobalt oxide nanomaterial synthesis.

Why Is Vacuum Degassing Necessary For Zif-8 Impregnation? Achieve Uniform Macroporous Material Synthesis

Learn how vacuum degassing removes air barriers in ZIF-8 materials to ensure uniform iron salt penetration and stable magnetic performance.

Why Must A Rotary Vane Vacuum Pump Be Integrated Into The Curing Platform For Phenolic Laminates? Key To Void-Free Parts

Learn why rotary vane vacuum pumps are critical for phenolic laminate curing to eliminate air pockets and chemical byproducts before resin gelation.