The present invention's general introduction
According to a first aspect of the invention, providing a kind of is being equipped with first electrode and is being filled with the method that forms ceramic coating in the electrolyzer of the alkaline electrolysis aqueous solution on metal and alloy, be soaked with the object that is connected with another electrode in the described electrolytic solution, wherein supply with pulsed current by described electrode, this method can be carried out under plasma discharge, and this method may further comprise the steps:
I) provide the pulse of the high frequency bipolar current with scheduled frequency range for described electrode; And
Ii) in described electrolytic solution, be created in the sound vibration in the predetermined audible range, make the range of frequency of described sound vibration and the range of frequency crossover of described impulse of current.
According to a second aspect of the invention, provide a kind of device that forms ceramic coating on metal and alloy, this device comprises the electrolyzer that has electrode, power supply and at least one the sound vibration producer that is used for sending to described electrode pulsed current, wherein:
I) described power supply is used for supplying with the high frequency bipolar current pulse with scheduled frequency range to electrode; And
Ii) described at least one sound vibration producer is used for producing sound vibration in the electrolytic solution that described electrolyzer holds, and described sound vibration has the predetermined audible range that the range of frequency with described impulse of current overlaps.
According to a third aspect of the invention we, the method for a kind of usefulness of the present invention first or second aspect or the ceramic coating that device forms are provided.
According to a forth aspect of the invention, provide a kind of ceramic coating that forms by the plasma discharge method on metal or alloy, the outside porous layer that described coating has is no more than 14% of total coat-thickness.
According to a fifth aspect of the invention, provide a kind of ceramic coating that forms by the plasma discharge method on metal or alloy, this coating comprises the surface of the low roughness (Ra) of 0.6~2.1 μ m.
Described bipolar current pulse can be ALT pulse, also may be provided in pulse grouping (packet of pulse), for example comprises two pulses, and one of them is a polar impulse, and another is the pulse of opposite polarity.
Embodiment of the present invention are intended to improve by the physical and mechanical properties of improving coating the application performance of ceramic coating, as wear resistance, erosion resistance, thermotolerance and dielectric strength.Embodiment of the present invention have also solved the technical problem that preparation and substrate have the hard micro-crystalline ceramic coating of good adhesion.
Embodiment of the present invention also were intended to by the used time used with finishing its processing time of obvious reduction applying coating itself, thereby improved the technical sophistication degree that forms in the ceramic coating method.Not only the productive rate of oxidising process is improved, and concrete cost of energy also obviously reduces.
By add resistant to elevated temperatures mineral compound in electrolytic solution, embodiment of the present invention also can provide the coating with pre-determined characteristics that forms according to object.
Embodiment of the present invention can also improve the stability of electrolytic solution and increase its work-ing life.
The device intention of embodiment of the present invention is improved reliability, multifunctionality and the easy assembleability of automatic production line.
Advantageously, the object that desire is applied is connected with electrode and places electrolyzer, this electrolyzer to have another electrode and be filled with alkaline electrolyte.Pulsed current can be supplied with electrode, thereby in plasma discharge (preferably plasma electrolytic oxidation zone), form the coating of desired thickness.Can produce pulsed current in electrolyzer, its pulse cline frequency is 500Hz or bigger, is preferably 1000~10,000Hz, and preferred pulse width is 20~1,000 μ sec.Advantageously each impulse of current comprises precipitous front end, thereby reaches maximum amplitude at 10% place less than total pulse widths; Electric current sharply descends then, reduces to peaked 50% or lower thereafter gradually.Current density is preferably 3~200A/dm
2, 10~60A/dm more preferably
2
Sound vibration can produce in electrolytic solution by air fluid dynamic force generating unit (aerohydrodynamic generator), and this producer produces the sound vibration of audible range in electrolyzer, and this produces the range of frequency crossover of audible range and impulse of current.
The powder (nanometer powder) that particle diameter can be no more than super dispersive metal oxide, boride, carbide, nitride, silicide and the sulfide of 0.5 μ m joins in the electrolytic solution, can form the stable water-sol under the sound vibration effect.
Relatively short impulse of current can reduce the discharge spark time, thereby may carry out oxidation under the higher current density of 3~200A/dm2.
High current value make that than short pulse producing spark in the plasma discharge passage in being formed at coating becomes possibility, this is apparently higher than the energy of low frequency region.Owing to the substrate of the comparatively high temps in the long-pending plasma discharge passage that causes of the microbody that descends, fusing faster cooling and solidify and cause forming fine and close micro-crystalline ceramic coating, it has the solid high-temperature oxide phase of high level.Microhardness of coating can reach 500~2100HV, and outside porous layer thickness preferably is no more than 14% of total coating thickness.
Use cline frequency to surpass 500Hz and width and help to limit less than the impulse of current of 1,000 μ sec and can make coating become laminar and the generation porous arc-over, help to reduce the concrete cost of energy that forms coating simultaneously.Yet along with pulse-repetition increases, although concrete cost of energy reduces, the loss meeting that causes because of surperficial and capacity effect increases.Surpass 10 in pulse-repetition, these losses begin to become clearly during 000Hz.In addition, frequency of utilization surpasses 10, and 000Hz and width need have very high energy with preparation high-quality coating less than the impulse of current of 20 μ sec in pulse, and this is very complicated and expensive for the technology implementation of industrial purposes.
The performance of the plasma discharge in the high-frequency impulse zone itself is different from and is being used for the conventional industrial frequency of the oxidation (discharge performance 50~60Hz) time.Can estimate brightness increase and spark size descends.With making spark move opposite on oxidized surface is to see the discharge simultaneously on whole surface of many sparks.
The preferred form of impulse of current (Fig. 1) helps at the uniform velocity starting and keeping plasma discharge on the whole surface of object.The plasma discharge process does not need the high current value that keeps stable.The precipitous front end of pulse and rapid (radical) that reach apace in the feasible discharge of the maximum value initial time thereof are lowered into this possibility.Reduce to maximum value 50% or littler electric current can keep discharge process effectively.
In addition, the precipitous front end of positive and negative pulse can make condensive load rapid charge and discharge, and this condensive load is to form jointly by electrode system (electrolyzer-electrolytic solution-article) with the dual electric layer on the oxidized article surface (electrolytic solution-oxide compound-metal).
In fact, can the application machine agitator in oxidising process and aerator stir electrolytic solution, this aerator works by bubbling bubbling air or oxygen in electrolytic solution.These devices make the liquid directed flow, thereby make the concentration of electrolytic solution and temperature reach even on macroscopic scale.In this mixing, the strong yield zone that is difficult to eliminate dead band (dead zone) and centers on article surface.Application mix nozzle ejection electrolytic solution makes mixing more effective in the modern system, thereby can guarantee higher turbulent flow.Also can adopt the alr mode of vibration and pulsation to electrolytic solution.
The method that is used for the non-ferrous alloy of anodizing is disclosed among the EP 1 042 178, wherein realize the vibration stirring of electrolytic solution by vibrating motor and rotating paddle, electrode is vibrated and is shaken, and is the porous ceramic pipe supply pressurized air of 10-400 μ m by the aperture.This makes the anodization process can be at 10~15A/dm
2Higher relatively current density under carry out, thereby greatly reduced the anodizing time.Yet the vibrational frequency that reaches in electrolytic solution owing to the speed that forms relatively large air filled cavity in electrolytic solution is all very low, so this method is effective inadequately for plasma oxidation.In the supply of the stirring of the electrolytic solution of electrode region, reagent with remove with macroscopic scale and carry out.In addition, be difficult to carry out technically from design angle this method.
For for the contour energy consumption process of plasma electrolytic oxidation, what wherein play the most obvious effect is in the heat and the material transfer speed at processed near surface place and be stirred the condition of liquid-flow on macroscopic scale.Acoustics effect in electrolytic solution helps to produce such stirring.
WO 96/38603 has described with ultrasonic vibration and has acted on spark method for oxidation on the electrolytic solution.This vibration helps the thorough renewal of electrolytic solution in the electrical discharge zone.Yet the ultrasonic vibration meeting in liquid causes the degassing and bubble to merge, thereby bubble floats to fluid surface.In first minute, reach 60% gas dissolved from liquid separation.In addition, the high-energy of ultrasonic vibration causes cavitation erosion of cavitation bubble surface and damage ceramic surface, impacts the quantity that has increased microfracture and hole thereby break the hydraulic pressure that produces because of exploding of cavitation bubble.
Comparatively speaking, embodiment of the present invention relate to form ceramic coating in the sound vibration field in alkaline electrolytes, and wherein sound vibration is in audible range (promptly not being ultrasonic wave), and vibration intensity preferably is no more than 1W/cm
2
Sound vibration can produce by at least one air fluid dynamic force generating unit, and it is the device that a kind of momentum with liquid or air spray is converted to the sound vibration energy.Simple and easy owing to it, reliable and economic being celebrated of this producer, it comprises fluid intake and resonant chamber.Electrolytic solution passes through from fluid intake, electrolytic solution discharge thereafter, and cause sound vibration this moment in the resonant chamber of producer, consequently the air in the atmosphere is drawn in the producer and with electrolytic solution through special modality and mixes, and is disperseed again.
The microbubble of many air flows together, and inserts in the cumulative volume of electrolyzer.Air is dissolving strongly in electrolytic solution, and saturated with oxygen.The saturation ratio of gas has improved 20-30% in the electrolytic solution.
In electrolytic solution, produces microcosmic with the air bubble of sound vibration frequency vibration and flow, thereby accelerated the agitation of electrolytic solution significantly, avoid bubble exhausting in approaching oxidized surface.Remove the heat of plasma discharge generation effectively and can eliminate the local superheating phenomenon, and guarantee to form high-quality ceramic coating with uniform thickness.The electrolytic solution part of importing new high oxygen content can promote plasma body-chemical reaction that electrical discharge zone is interior, and can accelerate coating forming procedure.
The alkaline electrolysis aqueous solution that is used for plasma oxidation is made up of colloidal solution (being the water-sol).As any colloidal solution, electrolytic solution is easy to condense, flocculation and precipitation.When electrolytic solution reached condensing to a certain degree, flocculation and precipitation, electrolytic solution lost efficacy and the quality of coating seriously descends.Therefore, the effectiveness that can determine electrolytic solution by the quantity and the size of control colloid grain.
The macrobead that embodiment of the present invention may form in electrolytic solution by lasting destruction, thus make electrolytic solution can keep effectively stable for a long time.Under the sound field influence that the sound vibration producer produces, the velocity of displacement of colloidal solid increases, and each other between the particle of active collision and cell wall the particle of effective collision and and oxidized article surface between the granule number of effective collision increase, thereby cause particles dispersed.
In order to prepare ceramic coating with predetermined function characteristic (wear-resisting, fast light, corrosion-resistant, heat-resisting, dielectric and the even color of whole thickness), can in electrolytic solution, add the diffusing insoluble powder (nanometer powder) of oversubscription, preferably its particle size is no more than 0.5 μ m, be no more than 0.3 μ m in certain embodiments, and its concentration is preferably 0.1~5 grams per liter.
(GB 2237030 to have the method for applying solid dispersed powders in the oxidation of electrolysis spark; WO97/03231; US 5,616, and 229; RU 2038428; RU 2077612).In all these methods, used powder has relatively large particle size (1~10 μ m), and uses higher relatively concentration (2~100 grams per liter).This solids precipitation is rapid; In order to keep suspended state, must improve the cycle rate of electrolytic solution in the electrolyzer or be used for the delivery rate of blistered air.Do so in fact and can not in the volume of electrolytic solution, make particles dispersed even, and then can not in coating itself, be uniformly dispersed.In addition, enter the not free fusing of macrobead of zone of oxidation, this causes forming laminar weak caking coating.
The present invention proposes to use because of the celebrated nanometer powder of high-energy state, and preferably its particle size reaches 0.5 μ m, reaches 0.3 μ m in certain embodiments, and has bigger specific surface and (be not less than 10m
2/ gram).The electrolytic solution that adds powder under the sound vibration effect can reach stable high dispersive hydrogel state.
Oversubscription scattered seed itself is more anti-to be condensed and precipitates.Yet the application of sound vibration causes particle further to disperse in electrolytic solution, and makes their homodisperse in electrolytic solution volume scope.
Acoustic effect has strengthened the particulate mixing, and gives the energy of their additional quantity.Owing to be loaded with additional electric charge (they are by the ion charging of electrolytic solution) on the particulate, thus in electrical discharge zone activated plasma-chemical reaction.The oversubscription scattered seed that enters plasma discharge partly distils, and in the part zone of oxidation that fusion advances to generate fully, thereby has formed fine and close ceramic coating.The material that depends on substrate can accelerate to 2-10 μ m/ minute with the process that forms coating.The coating that generates is characterised in that it has the structural stability and the uniform thickness of height.
Following material can be used as the uetradispersed powder (nanometer powder) that adds in the electrolytic solution: oxide compound (Al
2O
3, ZrO
2, CeO
2, CrO
3, MgO, SiO
2, TiO
2, Fe
2O
3, Y
2O
3And composition thereof, mixed oxide and spinel), boride (ZrB
2, TiB
2, CrB
2, LaB
2), nitride (Si
3N
4, TiN, AlN, BN), carbide (B
4C, SlC, Cr
3C
2, TlC, ZrC, TaC, VC, WC), sulfide (MoS
2, WS
2, ZnS, CoS), silicide (WSi
2, MoSi
2) etc.The refractory particle that adds this different chemical composition in the electrolytic solution can fundamentally change the physics-mechanical characteristics of coating, as structure, microhardness, porousness, intensity and color.Therefore can prepare coating for application-specific with optimum characteristic.
The applying nano powder can (0.1~5 grams per liter is preferably 0.5~3 grams per liter) obtain high-quality coating under relatively low concentration.Use the not obviously influence of powder of higher concentration or particle size greater than 0.5 μ m.
The present patent application people finds that one of the present invention is characterised in that, use if oxidising process and high frequency electric pulse merged, and the sound vibration that is created in the electrolytic solution is within audible range, then can quicken the formation of high-quality ceramic coating considerably.The sound vibration scope must overlap with the current pulse frequency scope.This will speed up the formation of coating and need not significantly to increase power consumption.
Each effect of listing (as the frequency of the pulse of raising special shape under the situation of free sound field in electrolytic solution, and utilizing the industrial frequency pulse to generate sound vibration in electrolytic solution) itself can cause all that the productive rate of oxidising process improves.Yet if use two kinds of effects simultaneously, its comprehensive action obviously exceeds the simple addition of two kinds of effects.
As can be seen, there is additional energy concentration in the intersection between electrolytic solution and oxidized surface in this case, thereby has quickened the diffusion in the oxidising process, heat and plasma body-chemical process.
The apparatus of the present invention that are used for formation ceramic coating on metal and alloy comprise power supply and electrolyzer (Fig. 2).
Power supply can produce and supply with the electrode electricimpulse of alternating polarity.Just can replace transmission one by one, also can alternately send by the alternative pulse group with anti-impulse of current.The amplitude that can regulate order and frequency, its width and the electric current and the voltage of successive pulse by the microprocessor that is used to control electrolytic process.
Electrolyzer can be by pond itself (for example make and as an electrode), second electrode, the electrolytic solution cooling system that link to each other with the article of oxidized coating by stainless steel and the system that is used to produce sound vibration form.It is 8.5~13.5 alkaline electrolyte that this electrolyzer can be filled with the pH value.
The electrolytic solution cooling system can be by the pump that is used to aspirate electrolytic solution, be used for thick polishing filter of particulate and water cooler that limiting demensions surpasses 10 μ m forms.The temperature of electrolytic solution preferably remains in 15~55 ℃ of scopes in oxidising process.
Be used for system that electrolytic solution produces sound vibration by one or more be installed in air fluid dynamic force generating unit, the tensimeter in the electrolyzer and be used for regulating valve from the intensity of electrolytic solution and air to producer that supply with form.Sound field parameters in the electrolytic solution can be by changing air fluid dynamic force generating unit ingress the pressure of electrolyte stream regulate.In fact this producer does not need extra energy, and it can be operated by the pressure that is driven the electrolytic solution that sprays by pump, and it can provide the pressure of 3~7 crust.
The remarkable advantage of the method for embodiment of the present invention is, it can be in the relatively short time (several minutes to a hour) produces on metal that thickness reaches 150 μ m, the microhardness that is preferably 2~150 μ m is the fine and close micro-crystalline ceramic coating of 500~2100HV.
The roughness of coating is Ra 0.6~2.1 μ m, and comprises very thin outside porous layer (its be no more than total coating thickness 14%).So just eliminate or greatly reduced the follow-up needs (Fig. 3) that carry out surface finish.
Even the characteristics of coating are also to form the height homogeneous thickness on the article of complicated shape.
The polycrystalline ceramics coating of high dispersing by size reach several microns, the fusing bead of secure bond constitutes each other.This structure can produce high-quality physical-chemical performance in coating, as heat-resisting, corrosion-resistant and dielectric strength.In addition, adding the solid nano powder with special chemical constitution in electrolytic solution can be in the change of being scheduled to aspect structure, microhardness, intensity and the color of coating, thereby is application-specific constrained optimization coating performance.
Embodiment of the present invention can make ceramic coating form with 2~10 μ m/ minutes speed, and this is considerably beyond forming the speed of hard ceramic coating with method known in the art.
Detailed description of preferred embodiments
Fig. 1 shows the time dependent preferred form of impulse of current (positive and negative) that passes through in the circuit between power supply and electrolyzer.Each impulse of current comprises precipitous front end, thereby reaches maximum amplitude at 10% place less than total pulse widths; Electric current sharply descends then, reduces to peaked 50% or lower thereafter gradually.
As shown in Figure 2, this device is made up of two portions: electrolyzer (1) and power supply (12), the two interconnects by sliver (busbar) (15,16).
Electrolyzer (1) is made up of stainless steel pond (2), wherein contains alkaline electrolyte (3) and is immersed at least one object (4) in the electrolytic solution.This electrolyzer is equipped with transfer pump (5) and the strainer of purifying electrolysis liquid (6) roughly.
Air fluid dynamic force generating unit (7) is installed in the bottom of electrolyzer (2).Valve (8) is provided for regulating the pressure of electrolytic solution (3), thereby regulates sound vibration frequency.Regulated valve (8) and tensimeter (9) are installed on the ingress of this producer (7).Valve (10) is provided for regulating the flow velocity of the air that enters producer (7).Electrolyte circulation system comprises that heat exchanger or water cooler (11) are to keep required electrolytic solution (3) temperature in oxidising process.
Power supply (12) is used in the controlled oxidation process three-phase pulse producer (13) of the microprocessor (14) of electrical parameter and forms by being equipped with.
Fig. 3 shows the sectional view that is formed at the ceramic coating on the metal base (100).This ceramic coating by iron-cloth ergosphere (200) and thin (less than total coat-thickness 14%) outside porous layer (300) forms.The surface of this ceramic coating has than low roughness (Ra 0.6~2.1 μ m).
Embodiment by implementation method illustrates the present invention.In all embodiment, the sample that desire applies is the disc of diameter 40mm, thickness 6mm.Before oxidation with the sample degreasing.After the oxidation, sample was descended dry 20 minutes with washed with de-ionized water and at 100 ℃.Electrical parameter by this process of oscillograph recording.The performance perameter of coating (thickness, microhardness and porousness) obtains by measuring horizontal microscopic cross section.
Embodiment 1
Be oxidation 35 minutes in phosphoric acid salt-silicate electrolytic solution of 11 with aluminium alloy 2014 samples in the pH value under 40 ℃.With frequency is that the bipolar alternately electricimpulse of 2500Hz offers electrolyzer.Current density is 35A/dm
2, final voltage (amplitude) is: anode 900V, negative electrode 400V.In electrolyzer, produce sound vibration by the air fluid dynamic force generating unit.Pressure at the electrolytic solution of producer import is 4.5 crust.Obtain fine and close Dark grey coating, total thickness is 130 ± 3 μ m, comprising the thick outside porous layer of 14 μ m.The roughness on oxide coating surface is Ra 2.1 μ m, and its microhardness is 1900HV, and the porosity of iron-cloth ergosphere (not being outside porous layer) is 4%.
Embodiment 2
With magnesium alloy sample AZ91 oxidation 2 minutes in phosphoric acid salt-aluminate electrolytic solution, the oversubscription that has added particle size in this electrolytic solution and be the 2g/l of the 0.2 μ m Al that looses
2O
3Powder.The temperature of electrolytic solution is 25 ℃, and the pH value is 12.5.Thereafter be 10 with frequency, the bipolar alternately electricimpulse of 000Hz is added on the electrolyzer.Current density is 10A/dm
2, final voltage (amplitude) is: anode 520V, negative electrode 240V.In electrolyzer, produce sound vibration by the air fluid dynamic force generating unit.Pressure at the electrolytic solution of producer ingress is 4.8 crust.Obtain fine and close white coating, total thickness is 20 ± 1 μ m, comprising the thick outside porous layer of 2 μ m.The roughness of oxidized surface is Ra0.8 μ m, and microhardness of coating is 600HV, and the porosity of functional layer is 6%.
Embodiment 3
With titanium alloy sample Ti A16 V4 oxidation 7 minutes in phosphoric acid salt-borate electrolytic solution, the oversubscription that has added particle size in this electrolytic solution and be the 2g/l of the 0.2 μ m Al that looses
2O
3Powder.The temperature of electrolytic solution is 20 ℃, and the pH value is 9.With frequency is 1, and the bipolar alternately electricimpulse of 000Hz is added on the electrolyzer.Current density is 60A/dm
2, final voltage (amplitude) is: anode 500V, negative electrode 180V.Utilize the air fluid dynamic force generating unit in electrolyzer, to produce sound vibration.Pressure at the electrolytic solution of producer ingress is 4.0 crust.Obtain fine and close pewter coating, total thickness is 15 ± 1 μ m, comprising the thick outside porous layer of 2 μ m.The roughness of oxidized surface is Ra0.7 μ m, and microhardness of coating is 750HV, and the porosity of functional layer is 2%.
Embodiment 4
Be oxidation 20 minutes in phosphoric acid salt-silicate electrolytic solution of 9 with AlBemet alloy sample (containing 38% aluminium and 62% beryllium) in the pH value under 30 ℃.With frequency is 3, and the bipolar alternately electricimpulse of 000Hz is added on the electrolyzer.Current density is 35A/dm
2, final voltage (amplitude) is: anode 850V, negative electrode 350V.Utilize the air fluid dynamic force generating unit in electrolyzer, to produce sound vibration.Pressure at the electrolytic solution of producer ingress is 4.5 crust.Obtain fine and close bright grey coating, total thickness is 65 ± 2 μ m, comprising the thick outside porous layer of 8 μ m.The roughness of oxidized surface is Ra1.2 μ m, and microhardness of coating is 900HV, and the porosity of functional layer is 5%.
Embodiment 5
Be oxidation 10 minutes in phosphoric acid salt-silicate electrolytic solution of 10 with intermediate metal metallizing thing (intermetallide) alloy sample (containing 50% titanium and 50% aluminium) in the pH value under 20 ℃.With frequency is 2, and the bipolar electricimpulse of 000Hz (is being just negative with two) is added on the electrolyzer.Current density is 40A/dm
2, final voltage (amplitude) is: anode 650V, negative electrode 300V.Utilize the air fluid dynamic force generating unit in electrolyzer, to produce sound vibration.Pressure at the electrolytic solution of producer ingress is 4.0 crust.Obtain fine and close Dark grey coating, total thickness is 25 ± 1 μ m, comprising the thick outside porous layer of 2.5 μ m.The roughness of oxidized surface is Ra 1.0 μ m, and microhardness of coating is 850HV, and the porosity of functional layer is 5%.
Embodiment 6
Under 25 ℃, intermediate metal metallizing thing alloy sample (is contained 95% Ni
3Al) be oxidation 10 minutes in phosphoric acid salt-borate electrolytic solution of 9.5 in the pH value.With frequency is 1, and the bipolar electricimpulse of 500Hz (is being just negative with two) is added on the electrolyzer.Current density is 50A/dm
2, final voltage (amplitude) is: anode 630V, negative electrode 260V.In electrolyzer, produce sound vibration by the air fluid dynamic force generating unit.Pressure at the electrolytic solution of producer ingress is 6.8 crust.Obtain fine and close white coating, total thickness is 30 ± 1 μ m, comprising the thick outside porous layer of 3 μ m.The roughness of oxidized surface is Ra 0.9 μ m, and microhardness of coating is 700HV, and the porosity of functional layer is 3%.
Experimental result described in the foregoing description is listed in the table 1.In contrast, also comprise the data of carrying out the currently known methods of oxidation with industrial frequency current in the table 1.
Preferred feature of the present invention is applicable to all aspects of the present invention, and can use by any possible array mode.
In the specification sheets and claims of this paper, word " comprises (comprise) " and " comprising (contain) " and variant thereof (as " comprising (comprising) " and " comprising (comprises) ") meaning is " including but not limited to ", and be not intended to get rid of other component, integral body, partly, additive or step.