Company Profile
Oriental Yuhongand HAMGAR Industrial Coatings
Oriental Yuhong was established in 1995.Over the past two decades,it has provided high-quality system solutions for tens ofthousands of major infrastructure projects,industrial buildings,and residential and commercial buildings.It has become a top-quality provider of building material system services.
The company pursues high-quality and stable development, extending upstream and downstream and related industrial chainswith themainwaterproofingbusinessasthecore.This formsa construction and building materials service system that combines various business sectors suchas buildingwaterproofing,civil building materials,non-woven fabrics,building coatings,building repairs,energy-saving insulation,mortar powder,and special films.
HAMGAR Industrial Coatings Co.,Ltd.is a wholly-owned subsidiary of Oriental Yuhong Group.As a system service provider among Fortune China's Top 5Oo Listed Companies, Oriental Yuhong adheres to a customer-centric approach, providing high-quality system solutions for tens of thousands of major infrastructure projects,industrial,civil,and commercial buildings.Focusing on technological innovation globally, Oriental Yuhong has established a Global Excellence Research Center inthe United States,and formedaglobal leadingtechnological advantage and applications in multiple fields.It practices the corporatemission of "creatinga lasting safe environment for humanity and society".
HAMGAR inherits the mission and vision of sustainable development from Oriental Yuhong,with the development philosophy of technological innovation and industrial environmental protection.Relying on the excellent R&D technology of Oriental Yuhongand more than ten yearsof experience inthe industrial field,it focuses on the field of industrial heavy-duty corrosion prevention and special corrosion prevention.It provides customers with environmentally friendly high-solid products and water-based anti-corrosion products,contributing to the environmental upgrade of China's coating industry.
"HELP ACHIEVE MAXIMUM PROTECTION".HAMGAR is COmmitted to excellent protection,emphasizing both superior product performance and construction application.Committed to providing customerswith comprehensive industrial protection and coating system solutions,it becamea leading domestic and internationally renowned industrial coating brand enterprise.
HAMGAR
Company Profile
HAMGARINDUSTIALCOATINGS
R&D Capability
TheR&DteamatHAMGARhasanyyearsofexperienceinidustrialcoatingdevelopment.Itscoremembersmostlycomefrominteationaly renownedanti-oosionoatingompanesoessingthablitytoevelopfullrangefprodutsinthidustrialfildandustomize utra-highperforanentorosioctigsAttetiur&Dpersoelfvisiteprojectsitetouderstandctods deeply.Troughgrs&rocessitestingdatiliaioserifeevetsuretevelopdct stableand reliable in quality.
Product Strategy
·Basic research
·Applied research
·Research on new materials,new technologies,and new processes
·Productupgrade and iteration
·Product customization
Technological Innovation, Industrial Environmental Protection
·Water-based industrial coating solutions
·High solid content, low VOC
·Energy-savingand low consumption
·Strictselectionofmaterials
·Fast-drying
Technical Services
HAMGAR's Technical Service Team 1 0 0 % has passed FROSlO and NACE international coating engineer certifications, knows wellproduct research anddevelopmentbackgrounds,ndcanrcommendsuitableoatingsacordingtodiferentproectsituatios,guideandsupervisesite coatingappicatiubmitlatedpoecteportsndgularlyakepoectetuvisitsdatinginspectiosrovidingfuoc stewardship technical services for customers.
Pre-sales:
Customer/paint contractor training, recommendation of paintings,project design and budget,and contractor evaluation.
In sales:
Provide consultation on construction conditions,surface treatment,and paint application process,and participate in on-site inspections.
After-sales:
Suggest regular maintenance/repair, frequent follow-ups,and periodic project re-inspections.
Selection of Steel Structure Coating System
ISO12944--Paints and varnishes: corrosion protection of steel structures by protective coating systems
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1. How to Choose the Appropriate Coating System
For choosing of the right anti-corrosion coating system,a variety of factors need to be considered to come up with the most economical and optimal technical solution.The most important factor to consider before choosing a protective coating for each project is:
1.1 Environmental Corrosiveness
When choosing a coating system,it is crucial to define the operating conditions of the structure,facility, or device.To determine the impact of environmental corrosion,the following factors must be considered: -Humidity and temperature (Using temperature and temperaturegradient)
-The existence of ultraviolet radiation
-Chemical exposure(e.g. specific exposure in factories)
-Mechanical damage (impact,wear, etc.)
For buried structures,their porosity and the ground structures they bear,as well as the ground conditions they withstand,must be considered.The humidity and PH value underground,as well as the exposure level of bacteria and organisms,are extremely important. In terms of water, the type and chemical composition of waterarealso very important. Thenature of the environment and corrosive conditions will affect:
-Type of coating used for protection
-The total thickness of the coating system
-Requiredsurfacetreatment
-Minimumand maximum repainting interval
Please note,the stronger the corrosiveness of the environment, the more thorough the required surface treatment.Strictadherence to the re-coating interval is also required.
Part2 of the ISO12944 standard provides the corrosion classification for atmospheric conditions, soil,and water.This standard is a very common assessmentbasedonthecorrosiontimeofcarbonsteeland zinc.It does not reflect specific chemical, mechanical, or temperatureexposure.
| Corrosion Level | External | Internal |
| C2 Low | Atmtyhrwithowpollutio levels, | sidett |
| C3 Intermediate | Uratanndipreatesfuroie | Unhetedbuildingsinichcondensationmayoccrsuchas |
| C4 High | Mediumsalinity industrial areasand coastal regions. | Inside production factories with high humidity and some air pollution,such as food processing factories,laundries,breweries, and dairy product factories. |
| C5 Very High | IndustrialareaswithhighhumidityandpoorairqualityandcoastalBuildingsandareaswherecondensationandhighpollution regionswith highsalinity. | continue to occur and persist. |
| CX Extreme | Mariereiititimdic atmosphere. | Industrial areas with extremely high humidity and corrosive atmosphere. |
| Classification | Environment | Caseof Environmentand Structure |
| Im1 | Fresh water | Facilities installed on the river, hydropower stations. |
| Im2 | Seawaterorslightlysaltywater | Immersstructreticpotecosuats |
| Im3 | Soil | Buried storage tanks,steel piles and steel pipes. |
| Im4 | Seawater or slightly salty water | Immersivestructureswithcathodic protection,sucsmrine |
1.2Type of Protective Surface
Designingcoigsoaligitettfatealsuchoadfacrfacitpr orteiralltdipdcesctroednsoadncfcsacitatedid paintedurfacsfcrmetainlpedatingprdudspileotaltingtcs type of material protected.
Selection of Steel Structure Coating System
ISO12944一一Paints and varnishes: corrosion protection of steel structures by protective coating systems
1.How to Choose the Appropriate Coating System
1.3 Durability Required for Coating System 1 Durability is defined as the period from use until the first time maintenance is needed.SO12944 specifies four durability ranges:
| Level | Duration |
| Low (L) | Not more than 7 years |
| Medium (M) | 7-15 years |
| High (H) | 15-25 years |
| Very High (VH) | >25years |
Note1:Duration isnota "guarantee period".Itisa technical basis that can help owners plan for maintenance.The guarantee period isa legallybindingclause in the contract.The guarantee period is usually shorten than duration.Moreover, there are no rules to clarify the correlation between these two terms.
1.4 Painting Plan and Construction Technology
The construction schedule and various stages of construction of any project determine how and when coating systems are constructed.For the painting plan, the relationship between the surface treatment and drying and curing time of the coating product and the temperature and humidity needs to be considered. In addition,if part of the painting work is carried out in theworkshop environment,and other painting work needs to be done on site,the repainting interval must also be considered.
2.SteelSurface
2.1Steel Surface Condition
Inorder to ensure that the coating system provides lasting protection,it isnecessary to ensure proper surface treatment before applying any coating.Therefore,it is necessary to assess the initial surface conditionof the steel.Steel surfaces that have never been protected by paint coatings may be covered to varying degrees due to rust,oxide scale,or other contaminants (dust,grease,ionic pollutants/soluble salts,residues, etc.).
The initial surface conditions are defined by the ISO8501-1 standard:Visual assessment of surface cleanliness of steel surfaces before coating Part1:Rust grades and preparation grades of uncoated steel surfaces and steel surfaces after complete removal of previous coatings.
This partof ISO85O1-1containsfour levels of rusting,namelyA,B,C,and D.The rusting levels areas follows:
| Initial Rust Level | Description |
| A | The surface of the steel that is is largely covered with scale and has almost no rust. |
| B | The surface of the steel that has already rusted with the oxide skin having begun to peel off. |
| C | Thesurfaceofthestelwheretheoxidizedskinhaspeeedoffduetorusting,orcanbescrapedoffandundernormalvisionlight pittingcanbeseen. |
| D | Thesurfaceofthesteelwheretheoxidizedskinhaspeeledoffduetorusting,andundernormalvision,commonpitingcanbeseen. |
2.2Manualand PowerTool Cleaning Level
Surfacetreatmentsfrmanualandpowertoolleaning,uchssraping,andrushngmechaicalrusingndandingreicated bytheleter"St".edescriptionsofmanualandpowertooleaniglevelsareasshowintetablelow.Beforeceaningalst layers,visibleoil,grease,anddirtshouldberemoved.Aftercleaning,thesurfacedustanddebrisshouldberemoved.
| Surface Treatment Level | Description |
| St2 Thorough manual and power tool cleaning | When observed without magnification,the surface should be free from visible grease and dirt,and there should be no loosely attached oxide skin,rust,coating,and foreign impurities. |
| St3 Very thorough manualand power tool cleaning | The same as St2,but the surface treatment should be much more thorough,and the surface should have the gloss of the metallic substrate. |
Selection of Steel Structure Coating System
ISO12944--Paints and varnishes: corrosion protection of steel structures byprotective coatingsystems
2.Steel Surface
2.3 Jet Cleaning
Thesurfacetreatmentofjetcleaningisrepresentedbytheleter"Sa".Thedescriptionofthejetcleaninglevelcanbefoundinthetable below.BeforeengallsfstldmodVeleeroudomodften the surface dust and debris should be removed.
| SurfaceTreatmentLevel | Description |
| Sa1 Slight jet cleaning | Whenobservedwithoutmagnification,thesurfaceshouldbefree fromvisible greaseanddirt,andthereshouldbeno loosely attached oxide skin,rust, coating,and foreign impurities. |
| Sa2 Thorough jetcleaning | Whenobservedwithoutmagnification,thesurfaceshouldbefreefromvisiblegreaseanddirt,andthereshouldbenoloosely atached oxide skin,rust,coating,and foreign impurities.Any residual contaminants should adhere firmly. |
| Sa2/ | Whenobserved without magnification,thesurface shouldbefree fromvisible greaseand dirt,andthere should be no Verythorougegehdidinstiduitiuaesfoantd |
| Jet cleaning that makes thesteelsurfaceclean | Whenobservedwithoutmagnification,thesurfaceshouldbefreefromvisiblegreaseanddirt,andthereshouldbenoloosely attached oxideskin,rust,coating,and foreign impurities.Thesurface shallhave an even metaliccolor. |
2.4 High Pressure WaterSurface Treatment
Aseriesftlsurfacetreatmentlvelsfterig-pressurewatertingtoremoveorpartiallyemovewatersolubleontaminantsus oated coatings,and foreign impurities.
ISO8501-4: Distinguishing three levels of cleanliness based on visible contaminants (Wa1-Wa2/)
| SurfaceTreatmentLevel | Description |
| Whenebsereiifasisertivi | |
| Wa2 Thorough high pressure water spraying | Whenobservedwithoutmagnfication,thesurfaceshouldbefreefromvsiblegreaseanddirt,aswellasmostrustriginal coating,andotherforeignimpurities.Anyresidualcontaminantsshallberandomlydispersedandmayformafirmlyattached coating,firmlyattached foreign impurities,and pre-existingrust spots. |
| Wa2/ Very thorough high pressurewaterspraying | Whenobservedwithoutmagnification,thesurfaceshouldbefreefromvisiblerust,greaseanddirt,aswellasoriginaloating andotherforeignimpuritiesexcluingslighttrace.Whereterigialoatingisemoved,visiblegrayrownorlacktas on pitted and eroded steel cannot be removed by further water spraying. |
Highpressurewaterinjectiondoesnotproducearoughsurfaceorcausesignificantchangesinexistingroughnes.Thevisibleappearance flashrustonthesteelsurfaceafteraterspraying.SO850-4dividestheflashrustgradeintothreetypesrepresentedrespectivelyby the symbols L, M,and H.
| Level of Flash Rust | Description |
| Mild flash rust | Whenobservedwithout magnification,thesurface showsasmallamountofyelloworbrown rust layerandthesteelbody isvisilethrosilerttwrust(isileasts)isevldstriuteaparsinatchdisfimytached t |
| Moderateflash rust | wee |
| Severe flash rust | Whetrslststhtia obvious rust stainsare shown on the cloth. |
Selection of Steel Structure Coating System
ISO12944一-Paints and varnishes: corrosion protection of steel structures by protective coating systems
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3.OtherMetal Surfaces
3.1 Hot Dip Galvanized Steel
In many environments,galvanizing isan effective method of preventing corrosion in steel. However,asa type of metal coating,galvanized steel also needs additional corrosion protection through paint coating in a corrosive environment.
Zinc isa very active metal.Once the galvanized component is removed from the zinc melting tank, its surface will change quickly. Most changes occur when zinc comes into contact with the atmosphere and watervapor,causing oxidation.The first oxide formed is zinc oxide,followed by zinc hydroxide,and finally zinccarbonate.Theadhesion of zinc oxideand zinc hydroxide particles to the zinc surface is poor,which can affect the adhesion of the coating.
Galvanizedsteelisamaterialrelativelydifficultto process.Insufficient or incorrect surface treatment, incompatibleresintypes,inadequatedryfilm thickness,and the combined effects of these factors, mayall lead to a large number of observable early failures.
Based on the different oxidation processes of galvanized steel,it can be divided into:
Brand NewGalvanized Steel:
The surface of hot-dip galvanized steel,within 48 hours of hot-dipping,is usually smooth,with almost no zinc oxide or zinc hydroxide.Before painting,it is necessaryto remove oil orwax from the surface and roughen the surface.
PartialWeatheredGalvanizedSteel:
Zinc oxide and zinc hydroxide (white rust) formed on the surface 48 hours to 1 year after hot-dipping. Before painting,it is necessary to remove surface fats oroily contaminants,rinse with fresh water,and roughen the surface.
FullyWeathered Galvanized Steel:
Aftera year or more of hot-dipping,a very thin stable layer of zinc carbonate forms on the surface,corroding the surface.Before painting,it is necessary to remove loose accumulations,fats or oily contaminants,and roughen the surface.
3.2StainlessSteel
Stainlesssteel isageneral termforaseriesof steel alloys,most of which have good resistance to atmospheric corrosion. In some environments, anti-corrosion coatings are required.When choosing stainlesssteel surface treatment and coating products,chlorine-free materials should be selected. Theabrasives used for cleaning stainless steel must not contain these metals and chlorides.In addition, abrasives containing iron should not be used,as there isa risk when abrasive particles remain on the surface of stainless steel.The appropriate abrasives are corundum and ordinary silica sand.Other non-metallic abrasives (includingvariousslags)arealsoacceptable, provided they do not contain metal.
If surface roughening is required,sand sweeping or sandblasting isthe recommended treatmentmethod. Sand sweeping should make the surface appear uniformly matte gray,witha dense surface contour. The coating mustbeapplied immediately after surface treatment to avoid oxidation.
3.3 Aluminum and Aluminum Alloys
Aluminum has a high resistance to conventional corrosion.When aluminum is exposed to a clean (humid) environment,a protective layer of aluminum oxide (passivation layer) will be formed.According to the processing technology (extrusion,drawing,rolling, etc.),pure aluminum is usually covered with a layer of moreor lessvisible grease orwax.Surface treatment is usually degreasing and cleaning.
Aluminum can be exposed to liquidswith a PH value of 4-8.5.It is recommended to use neutral detergents, free of chlorides and chlorinated solvents.Before drying the emulsifier in use,it is necessary to ensure that the surface is thoroughly rinsed with a large amount of fresh water after cleaning/degreasing.
Theabrasive for cleaning the surface of aluminum should not contain copper, nickel, iron,and chloride. Corundum (aluminum oxide) and regular silica sand aresuitable abrasives.Other granular non-metallic abrasivesarealso acceptable,as longas theydo not contain metal.After sandblasting,the surface must be made uniform and matte,with a dense surface contour.The coating must be applied immediately after surface treatment to avoid oxidation.
Anti-corrosion Coating Solution
Main Industrial Coating Products
HAMGARnheritsthemisioandvisionofsustainabledevelopmentfromOrientalYhongwiththedevelopmentposohyoftecolgical innovationandindustrialenvironmentalprotectionRelyingontheexcelentR&DtechnologyfOrientalYuhongandmorethanteearsf experienceintdstraflditusoldoustralautosipedsaooit providescustomersiviroetalrendlsolidpoductsdaterbadntorosiopodctsntributigttei tal upgrade of China's coating industry.
Solvent Borne:
8101 HAMGAR Epoxy Zinc-rich Primer-60
8102HAMGAR Epoxy Zinc-rich Primer-70
8103HAMGAR Epoxy Zinc-rich Primer-80
8104 HAMGAR Epoxy Zinc-rich Primer-85
8105HAMGARGrapheneReinforced ZincPrimer
8106 HAMGAR Graphene Zinc-rich Primer
8122 HAMGAR Inorganic Zinc-rich Primer-70
8123HAMGAR Inorganic Zinc-rich Primer-80
8124HAMGAR Inorganic Zinc-rich Primer-85
8125 HAMGAR Cold Spray Zinc Coating
8201HAMGAR EpoXy Primer
8206 HAMGAR Epoxy Zinc Phosphate Primer
8211 HAMGAR Epoxy Micaceous Iron Oxide Intermedi
ate Coating
8213 HAMGAR Graphene Epoxy Intermediate Paint
8217 HAMGAR Epoxy Micaceous Iron Oxide Intermedi
ate Coating
8221 HAMGAR Epoxy Topcoat
8231 HAMGAR Epoxy Low Surface Treatment Primer
8241 HAMGAR Epoxy Coal Tar Anticorrosive Coating
8251 HAMGAR Epoxy Hole Sealer
8252HAMGAR Epoxy Sealing Paint
8261 HAMGAR Static-conductive Phenolic Epoxy Primer
8262 HAMGAR Static-conductive Phenolic Epoxy
Topcoat
8263HAMGARPhenolicEpoxyPrimer
8264 HAMGAR Phenolic Epoxy Topcoat (Heat Resistant)
8265 HAMGAR Phenolic Epoxy Primer
8266 HAMGAR Phenolic Epoxy Topcoat
8271 HAMGAR Epoxy Glass Flake Paint
8272 HAMGAR Super Strong Epoxy Wear-resistant Paint
8301HAMGAR Acrylic Polyurethane Topcoat
8303 HAMGAR High Solid Acrylic Polyurethane Topcoat
8311 HAMGAR Acrylic Polyurethane Reflective Insulation
Coating
8401 HAMGAR Fluorocarbon Topcoat
8402 HAMGAR Fluorocarbon Metal Paint
8501 HAMGAR Alkyd Primer
8502 HAMGAR Alkyd Anti-rust Paint
8521HAMGARAlkyd ReadyMixed Paint
8522HAMGAR Alkyd Enamel
8601HAMGARAcrylicPrimer
8621 HAMGAR Acrylic Topcoat
8701 HAMGAR High-temperature Resistant Coating
(Single Component)
8703 HAMGAR High-temperature Resistant Coating
(Two-component 200℃)
8704 HAMGAR Aluminum Powder Organic Silicone Heat
Resistant Paint (200 ℃)
8705 HAMGAR High-temperature Resistant Coating
(Two-component 300 ℃)
8706 HAMGAR Aluminum Powder Organic Silicone Heat
Resistant Paint (300 ℃)
8712 HAMGAR Special Organic-Silicone Heat Resistance
Coating
8714 HAMGAR Organic Silicon Aluminum Powder Heat
Resistant Primer(Two-component, 600 ℃)
8721 HAMGAR Special Nano Heat Insulation Paint
8731 HAMGAR Solvent-free Epoxy Internal Drag Reduc
tion Coating
8761 HAMGAR Carbon-free Conductive Epoxy Primer
8781 HAMGAR Polysiloxane Topcoat
8281 HAMGAR Brand Solvent-Free Epoxy Drinking Water
Protective Coating
Water-based:
6104 HAMGAR Water-based Epoxy Zinc-rich Primer-60
6105 HAMGAR Water-based Epoxy Zinc-rich Primer-70
6106HAMGARWater-based Epoxy Zinc-richPrimer-80
6201 HAMGARWater-based Epoxy Primer
6205 HAMGAR Water-based Single Component Epoxy
Primer
6211 HAMGAR Water-based Epoxy Intermediate Paint
6221 HAMGAR Water-based Epoxy Topcoat
Water-based:
6251 HAMGAR Water-based Epoxy Sealing Agent
6301HAMGARWater-based Acrylic PolyurethaneTopcoat
6401 HAMGAR Water-based Fluorocarbon Finish
6502HAMGARWater-basedAlkydPrimer
6522HAMGAR Water-based Alkyd Topcoat
6601HAMGAR Water-based Acrylic Primer
6621HAMGAR Water-based Acrylic Topcoat
6641HAMGARWater-basedAcrylicMulti-functionDirect
to Metal Anti-corrosive Paint
6701 HAMGAR Water-based High Temperature Resistant
Coating (200℃)
6702HAMGARWater-based HighTemperatureResistant
Aluminum Powder Coating (200 ℃)
6703 HAMGARWater-based High Temperature Resistant
Coating (400℃)
6704HAMGARWater-based HighTemperatureResistant
Aluminum Powder Coating(400 ℃)
6705 HAMGAR Water-based High Temperature Resistant
Coating (600 ℃)
6706 HAMGAR Water-based High Temperature Resistant
Aluminum Powder Coating (600℃)
Fireproof Coating:
·Steel Structure Intumescent Fire Protection
Indoor Steel Structure Intumescent Fireproof Coating
(Solvent-based)
Indoor Steel Structure Intumescent Fireproof Coating
(Water-based)
Outdoor Steel Structure Intumescent Fireproof Coating
(Solvent-based)
Indoor Steel Structure Intumescent Fireproof Coating
(Water-based,with Particles)
Outdoor Steel Structure Intumescent Fireproof Coating
(Water-based,with particles)
-Steel Structure Non-lntumescent Fire Protection Indoor Steel Structure Non-Intumescent Fireproof Coating (Water-based,Cement-based,Two-component) Indoor Steel Structure Non-Intumescent Fireproof Coating (Water-based,Cement-based,Single-component) Outdoor Steel Structure Non-Intumescent Fireproof Coating (Water-based) Indoor Steel Structure Non-Intumescent Fireproof Coating (Water-based,Single-component Gypsum-based) Indoor Steel Structure Non-Intumescent Fireproof Coating (Water-based,Two-component Gypsum-based)
Anti-corrosion Coating Solution
Supporting Infrastructure Anti-corrosion Coating
| Durability | Coateng | Product name | Dr Film Thickness |
| 8501 HAMGAR AIkyd Primer | 40 | ||
| 8522 HAMGAR Alkyd Enamel | 40 | ||
| Total dry film thickness | 80 | ||
| 7~15 years System: C2.02 | 8501 HAMGAR Alkyd Primer | 50 | |
| 8522 HAMGAR Alkyd Enamel | 50 | ||
| Total dry film thickness | 100 | ||
| 15-25 years | System: C2.03 | 8501 HAMGAR Alkyd Primer | 100 |
| 8522 HAMGAR Alkyd Enamel | 60 | ||
| Total dry film thickness | 160 | ||
| System: C2.05 | 8206HAMGAREpoxyZincPhosphate | 70 | |
| 8301HAMGAR Acrylic Polyurethane | 50 | ||
| Total dry film thickness | 120 | ||
| System: C2.07 | Z105HAMGAR Graphene Reinforced | 60 | |
| Total dry film thickness | 60 | ||
| >25 years | System: C2.04 | 8501 HAMGAR Alkyd Primer | 70 |
| 8501 HAMGAR Alkyd Primer | 70 | ||
| 8522 HAMGAR Alkyd Enamel | 60 | ||
| Total dry film thickness | 200 | ||
| 8206HAMGAREpoxyZincPhosphate | 120 | ||
| 8301 HAMGAR Acrylic Polyurethane | |||
| System: C2.06 | Topcoat | 60 | |
| Total dry film thickness Z105 HAMGAR Graphene Reinforced | 180 | ||
| 8221 HAMGAR Epoxy Topcoat | 60 80 | ||
| System: C2.08 | |||
| Total dry film thickness | 140 |
| Durability | Coateng | Product name | Dry Film Thickness |
| System:C3.01 | 8501 HAMGAR Alkyd Primer | 50 | |
| 8522 HAMGAR Alkyd Enamel | 50 | ||
| Total dry film thickness | 100 | ||
| System: C3.02 | 8501 HAMGAR Alkyd Primer | 100 | |
| 8522 HAMGAR Alkyd Enamel | 60 | ||
| Total dry film thickness | 160 | ||
| 7~15 years System: C3.05 | 8206 HAMGAR Epoxy Zinc Phosphate Primer | 70 | |
| 8301 HAMGAR Acrylic Polyurethane Topcoat | 50 | ||
| Total dry film thickness | 120 | ||
| System:03.08 | Z105 HAMGAR Graphene Reinforced | 60 | |
| Total dry film thickness | 60 | ||
| 15-25 years | System: C3.03 | 8501 HAMGAR Alkyd Primer | 70 |
| 8501 HAMGAR Alkyd Primer | 70 | ||
| 8522 HAMGAR Alkyd Enamel | 60 | ||
| System:C3.06 | Total dry film thickness | 200 | |
| P206 HAMGAR EpoxyZincPhosphate | 120 | ||
| 01HAMGAR AcrylicPolyurethane | 60 | ||
| System: C3.09 | Total dry film thickness | 180 | |
| 2105HAMGAR Graphene Reinforced | 60 | ||
| 8221 HAMGAR Epoxy Topcoat | 100 | ||
| >25 years System: C3.07 | Total dry film thickness | 160 | |
| 8501 HAMGAR Alkyd Primer | 80 | ||
| 8501 HAMGAR Alkyd Primer | 80 | ||
| System:C3.04 | 8522 HAMGAR Alkyd Enamel | 50 | |
| 8522 HAMGAR Alkyd Enamel | 50 | ||
| Total dry film thickness | 260 | ||
| 8206HAMGAREpoxyZincPhosphate | 80 | ||
| 8211HAMGAREexMicaceousIron | 100 | ||
| 8301 HAMGAR Acrylic Polyurethane | 60 | ||
| Total dry film thickness | 240 | ||
| System:C3.10 | 2105HAMGAR Graphene Reinforced | 60 | |
| 8211AGRoyMicaceousIron | 90 | ||
| To01 HAMGAR Acrylic Polyurethane | 50 | ||
| Total dry film thickness | 200 |
Anti-corrosion Coating Solution
Supporting Infrastructure Anti-corrosion Coating
| Durability | Coatin | Product name | Dry Film Thickness | |
| System: C4.01 | 8501 HAMGAR AIkyd Primer | 100 | ||
| 8522 HAMGAR Alkyd Enamel | 60 | |||
| Total dry film thickness | 160 | |||
| 8206HAMGAREpoxyZincPhosphate | 70 | |||
| System: C4.04 | 8301 HAMGAR Acrylic Polyurethane Topcoat | 50 | ||
| Total dry film thickness | 120 | |||
| System: C4.08 | 8105HAMGARGraphene Reinforced | 60 | ||
| Total dry film thickness | 60 | |||
| System:C4.02 7 to 15 years System: C4.05 | 8501 HAMGAR Alkyd Primer | 70 | ||
| 8501 HAMGAR Alkyd Primer | 70 | |||
| 8522 HAMGAR Alkyd Enamel | 60 | |||
| Total dry film thickness | 200 | |||
| 8206 HAMGAREpoxyZincPhosphate | 120 | |||
| 8301 HAMGAR Acrylic Polyurethane Topcoat | 60 | |||
| System: C4.09 | Total dry film thickness | 180 | ||
| 2105 HAMGAR Graphene Reinforced | 60 | |||
| 8221 HAMGAR Epoxy Topcoat | 100 | |||
| Total dry film thickness | 160 | |||
| 15-25 years System: C4.10 | System: C4.06 | Pri06HAMGAR EpoxyZincPhosphate | 80 | |
| 8217HAGRoxyMicaceous Iron | 100 | |||
| 8301 HAMGAR Acrylic Polyurethane Topcoat | 60 | |||
| Total dry film thickness | 240 | |||
| 8105 HAMGAR Graphene Reinforced | 60 | |||
| 8211 HAMGAR Epoxy Micaceous Iron Oxide Intermediate Coating | 90 | |||
| 8301 HAMGAR Acrylic Polyurethane Topcoat | 50 | |||
| Total dry film thickness | 200 | |||
| >25 years | System:C4.07 | 8206HAMGAREpoxyZincPhosphate | 100 | |
| 8211HMGRoyMicacousIron | 140 | |||
| 8301 HAMGAR Acrylic Polyurethane Topcoat | 60 | |||
| Total dry film thickness | 300 | |||
| 8105 HAMGAR Graphene Reinforced | 80 | |||
| 8211 HAMGAR Epoxy Micaceous Iron Oxide Intermediate Coating | 120 | |||
| System: C4.11 | 8301 HAMGAR Acrylic Polyurethane Topcoat | 60 | ||
| Total dry film thickness | 260 |
| Durability | Coating System | Product name | Dry Film Thickness (μm) | |
| System: C5.01 | 8206 HAMGAR EpoxyZincPhosphate | 120 | ||
| 01 HAMGAR AcrylicPolyurethane | 60 | |||
| Total dry film thickness | 180 | |||
| 8105 HAMGAR Graphene Reinforced | 60 | |||
| System: C5.05 | 8221 HAMGAR Epoxy Topcoat | 100 | ||
| Total dry film thickness | 160 | |||
| 7~15 years | System: C5.02 | 8206HAMGAR EpoxyincPhosphate | 80 | |
| 8217HAMGARtyMicaeousro | 100 | |||
| To01HAMGAR AcrylicPolyurethane | 60 | |||
| Total dry film thickness | 240 | |||
| System:C5.06 | 8105HAMGARGraphene Reinforced | 60 | ||
| 8211HAMGAREteyMicaceousIron | 90 | |||
| 15-25 years | 8301HAMGARAcrylicPolyurethane 50 | |||
| Total dry film thickness | 200 | |||
| P206HAMGAREpoxyZincPhosphate | 100 | |||
| System: C5.03 | 8217HAMGRoxyMicaceousIron | |||
| To01HAMGAR Acrylic Polyurethane | 140 60 | |||
| Total dry film thickness | 300 | |||
| Zi05 HAMGARGraphene Reinforced | 80 | |||
| 821HAMGRoxyMicaceousIron | 120 | |||
| System:C5.04 | System:C5.07 T301HAMGAR AcrylicPolyurethane | |||
| Total dry film thickness | 60 | |||
| Pr06HAMGAR EpoxyZincPhosphate | 260 | |||
| 120 | ||||
| 8211HAMGARexyMicaceousIron | 180 | |||
| > 25 years System:C5.08 | 8301 HAMGAR Acrylic Polyurethane Topcoat | 60 | ||
| Total dry film thickness | 360 | |||
| 8105HAMGARGraphene Reinforced | 80 | |||
| 8211HAMGAREteMicaceosIron | 180 | |||
| 8301HAMGAR Acrylic Polyurethane Topcoat | 60 | |||
| Total dry film thickness | 320 | |||
Product Application Project Case
{0} INFRASTRUCTURE
Project Case 2023-2024
Expansion and Renovation Project of Jiaxing Nanhu Airport in Zhejiang
Product Application Project Case
Project Case 2023-2024
1.5milon tons/yearheavyfueloilrefiningequipmentsafetytechnologytransformation,50otons/yearsodiumthiocyanate technology transformation project
National Material Reserve Bureau's Finished Oil Storage Project
National Material Reserve Bureau's159 Finished Oil Storage Project
Centralized procurementofmechanicalequipmentofShaanxiYanchang Petrolum MachineryEquipment ManufacturingCo,Ltd
Anhui Oil Transportation Subsidiary, Hefei Station
2,0000m3 LNG Low Temperature Liquid Storage Tank C6521 Projectof Inner Mongolia Ronghong Shengrui
PhaseIPumpShedandPipelinEquipmentAnti-corosionMaintenanceProjectofAnuiOilansportationSubsidiaryefeiStatio
Hazardouswasteandindustrialwasteresoucetreatmentanddisposalproject(sudgeandwastemineraloil)tankfarm,firestal tion phase Il project of Zhejiang Tongzhou Environmental Protection Technology Co., Ltd.
400,000 tons/year Organic Silicon New Material Project of Hubei Xingrui Silicon Materials Co., Ltd
42,000 tons/yearMonomer Hydrogenation New Material Projectof Jining Jintailihua ChemicalTechnology Co,Ltd
Experimental Base Projectof Sinopec Beijing Chemical Institute
Beijing-HarbinExpresswaySuizhong(Hebei-LiaoningBorder)toPanjinSectionReconstructionandExpansionProjectConcreteSection Shanghai Hunan Ramp Bridge
Sinopec Changling Petrochemical Inspection andMaintenance Project
Zhoushan Waidiao Island Guanghui 3oo,o00-ton Oil Product Terminal Project
"White to Black" Upgradeand Renovation Project (Phase One)"of Rural Highway,Shapu Town,Fuqing City
Road Repair Project of Tanghe Pasture Second Subfield
Tanghe 2 Field Cement Leakage Slab and Level 6 Walkway Anti-corrosion Project
Shanghai South Paint Purchase Contract
Neixiang Industrial Park1Anti-corrosion Maintenance and Renovation Project
LocalizationProjectofHydrogenFuel Cell BipolarPlates
Inspection and Maintenance Project of Sinopec Chongqing SVW Chemical Co., Ltd.
Daneili Desalination and Deoxygenation Device
XinmaiGlobal Medical Center
Pinghu International Convention and Exhibition Center
TheNo.1SectionoftheHazard Management ProjectforShipColisionwithBridges,including28BridgessuchastheLaibinMatan Hongshuihete Bridge
Zhoushan Road Maintenance Project
Inspectionand Maintenance Project of Sinopec Jingmen Branch
Hanjiang River, Rongjiang River,and Lianjiang RiverSystem Connectivity Optimization Project
HAMGAR INDUSTRIAL COATINGS CO., LTD
Headquartersaddress:
Block 4,TOPSMARTPAZA,77-79,Jingtai oad Putuoistrict,hanghai,i
Productionaddress:
No.11amu Road,Xiaya Town,Jiande,Hangzhou City, Zhejiang Province, China
R&D Center address:
No.19KechuangNinthStreet,Tongzhou District, Beijing,ChinaOrientalYuhongNewMaterial Equipment R&DDepartment HeadquartersBase
No.11 Mamu Road, Xiaya Town, Jiande, Hangzhou City, ZhejiangProvince,China




