CN217914427U - Machining pad assembly for wafer polishing equipment - Google Patents

Abstract

The utility model discloses a processing pad subassembly for wafer equipment of polishing, the processing pad subassembly includes first processing pad, the second processing pad and leaves the type tie coat, first processing pad and second processing pad are fixed through leaving the type tie coat bonding, wherein, when polishing the wafer, first processing pad is used for bonding fixedly with last polishing dish, the second processing pad is used for bonding fixedly with lower polishing dish, get rid of after leaving the type tie coat, place the wafer in and polish between first processing pad and the second processing pad, all adopt the method of pasting of positive underpressure formula when first processing pad and last polishing dish bond fixedly and second processing pad and lower polishing dish bond fixedly, bubble and the emergence of fold of reduction processing pad in pasting the in-process that can be very big through using this kind of processing pad, thereby can effectively reduce wafer surface damage, reduce wafer two-sided processing breakage rate, improve two-sided processing yield.

Description

Machining pad assembly for wafer polishing equipment

Technical Field

The application relates to the field of wafer processing, in particular to a processing pad assembly for wafer polishing equipment.

Background

Grinding is a main means for trimming the surface of the wafer, and under the action of certain pressure, damage on the surface of the wafer is removed through the interaction between the abrasive and the surface of the wafer, and finally the micro-damage or non-damage state of the surface of the wafer is achieved.

The existing polishing disc is generally a metal disc, is hard in material and cannot be embedded with abrasive materials, a soft pad is attached to the surface of the polishing disc, the soft pad is soft in material, and the abrasive materials can be conveniently embedded into the soft pad, so that the mutual action of a wafer and the abrasive materials in the polishing process is realized. However, the bonding operation between the soft pad and the polishing disc is difficult at present, and bubbles and wrinkles are easily generated between the soft pad and the polishing disc during bonding, and the bubbles and wrinkles can cause local polishing liquid or uneven distribution of the polishing liquid on the surface of the wafer, so that the surface of the wafer is damaged, even the wafer is damaged, and the wafer processing yield is reduced.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present application provides a processing pad assembly for a wafer polishing apparatus, wherein the processing pad assembly has the following scheme:

a process pad assembly for a wafer polishing apparatus having an upper polishing disk and a lower polishing disk that are rotatable relative to each other, the process pad assembly comprising:

the first processing pad and the second processing pad are bonded and fixed through a release bonding layer;

when the wafer is polished, the first processing pad is used for being fixedly bonded with the upper polishing disc, the second processing pad is used for being fixedly bonded with the lower polishing disc, and after the release bonding layer is removed, the wafer is arranged between the first processing pad and the second processing pad for polishing.

Preferably, the first processing pad includes: the wafer polishing device comprises a first functional layer and a first back glue layer, wherein the first functional layer is used for polishing a wafer;

the second processing pad includes: the second functional layer is used for polishing the wafer, and the second back glue layer is fixedly bonded with the second functional layer;

the first functional layer and the second functional layer are bonded and fixed through the release bonding layer, when the wafer is polished, the first back adhesive layer is used for bonding and fixing the first functional layer on the upper polishing disc, and the second back adhesive layer is used for bonding and fixing the second functional layer on the lower polishing disc.

Preferably, a first removable protective layer is adhered to the surface of the first back adhesive layer away from the first functional layer;

a second removable protective layer is stuck on the surface of the second back adhesive layer, which is far away from the second functional layer;

when the wafer is polished, the first protective layer is removed, so that the first functional layer is bonded and fixed with the upper polishing disc through the first back glue layer, the second protective layer is removed, and the second functional layer is bonded and fixed with the lower polishing disc through the second back glue layer.

Preferably, the first protective layer and the second protective layer each include a base layer and an isolation layer;

in the same protective layer, the substrate layer is positioned on one side of the isolation layer facing the release bonding layer.

Preferably, the base layer comprises a laminate of one or more of a white paper layer, huang Zhiceng, a kraft paper layer, a glassine paper layer and a cloth layer;

the isolation layer is a lamination layer of one or more of a polytetrafluoroethylene layer, a polyolefin layer, a polycarbonate layer, a polyamide layer, a polyacrylonitrile layer and a polyester layer;

the thickness of the isolation layer is 0.1mm-0.5mm.

Preferably, a protrusion is arranged on one side surface of the first functional layer, which is fixedly bonded with the release bonding layer;

and the surface of one side of the second functional layer, which is fixedly bonded with the release bonding layer, is provided with a bulge.

Preferably, the first functional layer and the second functional layer each comprise at least one of the following:

the first functional layer and the second functional layer are both one or more laminated layers of a polyurethane layer and a non-woven fabric layer;

the embossment of the first functional layer and the embossment of the second functional layer both comprise at least one of a circular or spiral shape;

the thickness of the first functional layer and the second functional layer is 0.2mm-1mm.

Preferably, the release bonding layer is a water-soluble glue layer, and the thickness of the release bonding layer is 0.1mm-1mm.

According to the technical scheme, the machining pad assembly for the wafer polishing equipment comprises the first machining pad, the second machining pad and the release bonding layer, the first machining pad and the second machining pad are fixedly bonded through the release bonding layer, when a wafer is polished, the first machining pad is fixedly bonded with the upper polishing disc, the second machining pad is fixedly bonded with the lower polishing disc, after the release bonding layer is removed, the wafer is placed between the first machining pad and the second machining pad to be polished, a front-down pressing type bonding method is adopted when the first machining pad and the upper polishing disc are fixedly bonded and the second machining pad and the lower polishing disc are fixedly bonded, the occurrence rate of bubbles and wrinkles of the machining pad in the bonding process can be greatly reduced through the machining pad, the flatness and the stability of the cloth of the double-sided machining equipment are improved, the surface damage of the wafer can be effectively reduced, the damage rate of double-sided machining of the wafer is reduced, and the yield of double-sided machining is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in related arts, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

The structures, proportions, and dimensions shown in the drawings and described in the specification are for illustrative purposes only and are not intended to limit the scope of the present disclosure, which is defined by the claims, but rather by the claims, it is understood that these drawings and their equivalents are merely illustrative and not intended to limit the scope of the present disclosure.

FIG. 1 is a schematic diagram of a processing pad assembly according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a first processing pad of the processing pad assembly according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a second processing pad of the processing pad assembly according to an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of another alternative processing pad assembly according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram illustrating a further alternative embodiment of a tooling pad assembly according to the present disclosure;

fig. 6 is a schematic structural diagram of a first protective layer and a second protective layer provided in an embodiment of the present application;

fig. 7 provides a top view of a functional layer according to an embodiment of the present application;

FIG. 8 is a flow chart of a method of polishing a processing pad assembly according to an embodiment of the present disclosure;

fig. 9 is a schematic structural view of a grinding apparatus for processing a pad assembly according to an embodiment of the present application.

Detailed Description

Embodiments of the present application will now be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the application are shown, and in which it is to be understood that the embodiments described are merely illustrative of some, but not all, of the embodiments of the application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

In the third generation semiconductor material, the silicon carbide material has the characteristics of large forbidden bandwidth, high breakdown electric field, high saturated electron drift velocity, large heat conductivity and the like, is suitable for preparing high-voltage-resistant and high-frequency-resistant power devices, and is an ideal material in the emerging fields of electric automobiles, 5G base stations, satellites and the like.

The silicon carbide wafer is an important basis for manufacturing devices, the quality and the precision of surface processing of the silicon carbide wafer directly affect the quality of an epitaxial film and the performance of the devices, so that the application of the silicon carbide wafer requires that the surface of the wafer is ultra-smooth, defect-free and nondestructive, the surface roughness value reaches below a nanometer level, and polishing is a main means for trimming the surface of the wafer. The polishing disc is generally a metal disc, is hard in material and cannot be embedded with abrasive, so that the surface of the polishing disc is attached to the polishing pad, and the polishing pad is soft in material and convenient for embedding of the abrasive. In two-sided equipment of polishing, the diameter that uses the pad of polishing is 1300mm, and the current pad of polishing is the disconnect-type with the laminating of the dish of polishing and pastes, uses the mode of using the limit to paste cloth limit and driving pressure, and the deformation of processing pad can be caused to the process, leads to the bonding area of pasting the pad of polishing of last station to be greater than the quotation area, produces the fold and pastes for a long time.

In order to solve the problem, the application provides a processing pad subassembly and based on the method of polishing of processing pad subassembly for wafer equipment of polishing, in the processing pad subassembly, first processing pad with second processing pad is through leaving the bonding of type tie coat, puts the processing pad subassembly between last polishing dish and lower polishing dish, gets rid of behind the first protective layer, the bonding between last polishing dish and the first processing pad is fixed and is the method of pasting that adopts positive formula of pushing down, pastes fixedly back at first processing pad and last polishing dish, the processing pad subassembly is whole along with the vertical ascending of polishing dish, gets rid of the second protective layer is pressed on lower polishing dish openly and is pasted the second processing pad, through this kind of openly push down and the mode of pasting that openly pushes up, has just reduced the production of pasting in-process bubble and fold.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a processing pad assembly provided in an embodiment of the present application, the processing pad assembly being used in a polishing apparatus, which may be as shown in fig. 9, and having an upper polishing disk 7 and a lower polishing disk 8 that can rotate relative to each other, the processing pad assembly according to an embodiment of the present application includes:

the first processing pad 1 and the second processing pad 2 are bonded and fixed through a release bonding layer 3;

when wafers are polished, the first processing pad 1 is used for being bonded and fixed with the upper polishing disc 7, the second processing pad 2 is used for being bonded and fixed with the lower polishing disc 8, and after the release bonding layer 3 is removed, the wafers are arranged between the first processing pad 1 and the second processing pad 2.

In the processing pad subassembly that provides in the embodiment of this application first processing pad 1 with second processing pad 2 passes through it is fixed to bond from type tie coat 3, first processing pad 1 with it is fixed to go up polishing dish 7 bonding, and second processing pad 2 with polishing dish 8 bonding is fixed down, need will before polishing first processing pad 1 with second processing pad 2 separation, then the adhesive force from type tie coat 3 need be less than first processing pad 1 with go up polishing dish 7 the adhesive force with second processing pad 2 with polishing dish 8's adhesive force down, still need wash before polishing and bond first processing pad 1 with the 2 surperficial from type tie coat 3 of second processing pad, later place the wafer in first processing pad 1 with polish between the second processing pad 2.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a first processing pad in a processing pad assembly according to an embodiment of the present application, where the first processing pad 1 includes: the wafer polishing device comprises a first functional layer 11 for polishing the wafer and a first back glue layer 12 bonded and fixed with the first functional layer 11.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a second processing pad in the processing pad assembly according to an embodiment of the present application, where the second processing pad 2 includes: a second functional layer 21 for polishing the wafer, and a second back glue layer 22 bonded and fixed with the second functional layer.

Referring to fig. 4, fig. 4 is a schematic structural view of another processing pad assembly provided in an embodiment of the present application, where the first functional layer 11 and the second functional layer 21 are bonded and fixed through the release bonding layer 3, and when the wafer is polished, the first back adhesive layer 12 is used to bond and fix the first functional layer 11 on the upper polishing disc 7, and the second back adhesive layer 22 bonds and fixes the second functional layer 21 on the lower polishing disc 8.

In the embodiment of the present application, the first back glue layer 12 is pasted through the spin coating mode and is adhered on the first functional layer 11, the second back glue layer 22 is also pasted through the spin coating mode and is adhered on the second functional layer 21, the first back glue layer 12 and the second back glue layer 22 are all epoxy resin layers, and the thickness is 0.2mm.

The first processing pad 1 comprises the first back glue layer 12 and the first functional layer 11, the second processing pad 2 comprises the second back glue layer 22 and the second functional layer 21, and a wafer is placed between the first functional layer 11 and the second functional layer 21. The first gum layer 12 is used for bonding and fixing the first functional layer 11 on the upper polishing disc 7, and the second gum layer 22 is used for bonding and fixing the second functional layer on the lower polishing disc 8. Before polishing, the first functional layer 11 and the second functional layer 12 are bonded and fixed through the release bonding layer 3. During polishing, the first gum layer 12 is bonded with the upper polishing disk 7, and the second gum layer 22 is bonded with the lower polishing disk 8. Wherein the adhesive force of the release adhesive layer 3 must be smaller than the adhesive force of the first adhesive backing layer 12 and the upper grinding disk 7 and the adhesive force of the second adhesive backing layer 22 and the lower grinding disk 8. If the adhesive force of the release adhesive layer 3 is greater than the adhesive force of the first back adhesive layer 12 and the upper polishing disc 7 or the adhesive force of the second back adhesive layer 22 and the lower polishing disc 8, the first functional layer 11 and the second functional layer 21 cannot be separated when the upper polishing disc 7 and the lower polishing disc 8 are vertically separated relatively, so that the wafer cannot be polished.

Referring to fig. 5, fig. 5 is a schematic structural view of another processing pad assembly provided in the embodiment of the present application, and as shown in fig. 5, a removable first protective layer 13 is adhered to a surface of the first backside adhesive layer 12 facing away from the first functional layer 11. A second removable protective layer 23 is attached to the surface of the second backing layer 22 facing away from the second functional layer 21.

When polishing the wafer, remove first protective layer 13, so that first functional layer 11 passes through first gum layer 12 with it is fixed to go up to polish and coil 7 bonding, get rid of second protective layer 23, so that second functional layer 21 passes through second gum layer 22 with it is fixed to polish down to coil 8 bonding.

As shown in fig. 5, the first protective layer 13 is disposed on the surface of the first back adhesive layer 12 away from the first functional layer 11, before the first back adhesive layer 12 is bonded and fixed to the upper polishing disc, the first protective layer 13 protects the first back adhesive layer 12, and when a wafer is polished, the first back adhesive layer 12 is bonded and fixed to the upper polishing disc 7, so that the first functional layer 11 is bonded and fixed to the upper polishing disc 7 through the first back adhesive layer 12, and therefore the first protective layer 13 needs to be removed during polishing. The second protective layer 23 is arranged on the surface of the second back adhesive layer 22 departing from the second functional layer 21, before the second back adhesive layer 22 is bonded and fixed with the lower polishing disc 8, the second protective layer 23 protects the second back adhesive layer 22, when a wafer is polished, the second back adhesive layer 22 is bonded and fixed with the lower polishing disc 8, and it is ensured that the second functional layer 21 is bonded and fixed on the lower polishing disc 8 through the second back adhesive layer 22, so that the second protective layer 23 needs to be removed when polishing.

Referring to fig. 6, fig. 6 is a schematic structural diagram of the first protective layer and the second protective layer provided in the embodiment of the present application, the upper diagram is a schematic structural diagram of the first protective layer 13, and the lower diagram is a schematic structural diagram of the second protective layer 23, and based on fig. 6, both the first protective layer 13 and the second protective layer 23 include a substrate layer 4 and an isolation layer 5.

In the same protective layer, the substrate layer 4 is located on one side of the isolation layer 5 facing the release adhesive layer 3.

In the above, in the same protective layer, the base layer 4 and the isolation layer 5 face the side of the release adhesive layer 3, so that the base layer 4 of the first protective layer 13 is bonded to the first back adhesive layer 12, and the base layer 4 of the second protective layer 23 is bonded to the second back adhesive layer 22.

The base layer 4 comprises a laminate of one or more of a white paper layer, huang Zhiceng, a kraft paper layer, a glassine paper layer and a cloth layer.

The isolation layer 5 is a lamination layer of one or more of a polytetrafluoroethylene layer, a polyolefin layer, a polycarbonate layer, a polyamide layer, a polyacrylonitrile layer and a polyester layer.

The thickness of the isolation layer is 0.1mm-0.5mm.

The base layer 4 may be prepared by at least one of spin coating, spraying and adhering on the lamination of one or more of the white paper layer, huang Zhiceng, kraft paper layer, glassine paper layer and cloth layer to obtain the lamination of one or more of the polytetrafluoroethylene layer, the polyolefin layer, the polycarbonate layer, the polyamide layer, the polyacrylonitrile layer and the polyester layer included in the isolation layer 5.

The surface of one side of the first functional layer 11, which is fixedly bonded with the release bonding layer 3, is provided with a bulge;

and the surface of one side of the second functional layer 21, which is fixedly bonded with the release bonding layer 3, is provided with a bulge.

The first functional layer 11 with the second functional layer 21 all is used for polishing the wafer, if first functional layer with the second functional layer one side of polishing the wafer is smooth plane, then can't produce the effect of polishing, so first functional layer 11 with one side that the second functional layer 12 polished the wafer all has the arch, the arch of first functional layer 11 is located first functional layer 11 with from the one side that type tie coat 3 bondd, the arch of second functional layer 21 is located second functional layer 21 with from the one side that type tie coat 3 bondd, when polishing the wafer before, get rid of from type tie coat 3, place the wafer in between first functional layer 11 and the second functional layer 21, add the abrasive material, utilize the arch of first functional layer 11 and second functional layer 21 to polish the wafer.

The first functional layer 11 and the second functional layer 21 comprise at least one of the following:

the first functional layer 11 and the second functional layer 21 are both a laminate of one or more of a polyurethane layer and a nonwoven fabric layer;

referring to fig. 7, fig. 7 is a top view of a functional layer provided in the present embodiment, and the protrusions 6 of the first functional layer 11 and the protrusions 6 of the second functional layer 21 may be at least one of circular or spiral as shown in fig. 7. The first functional layer 11 and the second functional layer 21 may be circular as shown in the left drawing of fig. 7 or spiral as shown in the right drawing of fig. 7. It should be noted that, in fig. 7, two ways are only shown that the first functional layer and the second working layer only include one kind of protruding structures, and obviously, the same functional layer may also include a plurality of different protruding structures.

The thicknesses of the first functional layer 11 and the second functional layer 21 are 0.2mm to 1mm.

The first functional layer 11 and the second functional layer 21 may be a laminate of a polyurethane layer, or a laminate of a polyurethane layer and a nonwoven fabric layer, the thickness of the first functional layer 11 and the second functional layer 21 ranges from 0.2mm to 1mm, but the thickness is preferably 0.6mm, the protrusions 6 of the first functional layer 11 and the second functional layer 21 may not be the same, but the protrusions 6 are required to be provided on both the first functional layer 11 and the second functional layer 21, and the shape of the protrusions 6 of the first functional layer 11 and the second functional layer 21 may be at least one of a circular shape and a spiral shape.

The release bonding layer 3 is a water-soluble glue layer, and the thickness of the release bonding layer 3 is 0.1mm-1mm.

It is the water-soluble glue layer to leave type tie coat 3, preferably polyvinyl acetate layer, just the thickness range from type tie coat 3 is 0.1mm-1mm, wherein first functional layer 11 passes through with second functional layer 21 it bonds from type tie coat 3, then it is less than to leave the adhesive force of type tie coat 3 first gum layer 12 with go up the adhesive force of polishing dish 7 and second gum layer 22 with the adhesive force of polishing dish 8 down.

Based on the processing pad assembly of the above embodiment, another embodiment of the present application provides a wafer polishing method based on the processing pad assembly of the above embodiment as follows:

referring to fig. 8, fig. 8 is a flowchart illustrating a polishing method of a processing pad assembly according to an embodiment of the present application, the polishing method of the processing pad assembly according to the embodiment of the present application including:

step S11: the machining pad assembly is placed horizontally between the upper grinding disk 7 and the lower grinding disk 8.

Step S12: and (3) bonding and fixing the upper grinding disc 7 and the first processing pad 1.

Step S13: and bonding and fixing the lower polishing disc 8 and the second processing pad 2.

Step S14: the first processing pad 1 is separated from the second processing pad 2 by the relative movement of the upper polishing disk 7 and the lower polishing disk 8 in the vertical direction.

Step S15: after the upper polishing disc 7 and the lower polishing disc 8 are vertically separated, the release bonding layers 3 bonded to the surfaces of the first processing pad 1 and the second processing pad 2 are cleaned and removed.

Step S16: the wafer is placed between the first processing pad 1 and the second processing pad 2, and is polished based on the relative rotation of the upper polishing disk 7 and the lower polishing disk 8.

Referring to fig. 9, fig. 9 is a schematic structural view of a polishing apparatus for a processing pad assembly according to an embodiment of the present application, the polishing apparatus including: first rotating equipment 9 goes up the dish of polishing 7, and first processing fills up 1, from type tie coat 3, and second processing fills up 2, lower polishing dish 8 and second rotating equipment 10, first rotating equipment 9 is used for driving go up the rotation and the removal of polishing dish 7, second rotating equipment 10 is used for driving polish the rotation and the removal of dish 8 down. When the polishing equipment is used for sticking the processing pad assembly, the processing pad assembly is horizontally placed on the lower polishing disc 8, the first rotating equipment 9 drives the upper polishing disc 7 to downwards press the processing pad assembly, so that the upper polishing disc 7 is stuck and fixed with the first processing pad 1, the second rotating equipment 10 drives the lower polishing disc 8 to vertically press the upper polishing disc 7, so that the lower polishing disc 8 is stuck and fixed with the second processing pad 2, the upper polishing disc 7 and the lower polishing disc 8 move relatively in the vertical direction, so that the first processing pad 1 is separated from the second processing pad 2, and the release bonding layer 3 is only used for sticking and fixing the first processing pad 1 and the second processing pad 2, therefore, after the first processing pad 1 and the second processing pad 2 are separated, the release bonding layers 3 bonded on the surfaces of the first processing pad 1 and the second processing pad 2 are cleaned, and then the wafer is placed between the upper polishing disc 7 and the lower polishing disc 8 for polishing.

The polishing method of the processing pad assembly based on the embodiment of the application further comprises the following steps:

abrasive material is added between the wafer and the first functional layer 11 and between the wafer and the second functional layer 21.

In wafer polishing, adding an abrasive, which is the main grinding medium for polishing the wafer surface, is also a necessary step, and the selection of the abrasive is also important for wafer polishing, and in this embodiment, the abrasive may be one of diamond powder, alumina powder, silicon carbide powder and silicon dioxide powder.

The upper polishing disk 7 is provided with a feeding hole penetrating through the upper polishing disk 7, and the method for adding the grinding material comprises the following steps:

after the release adhesive layer 3 is cleaned and removed, forming a through hole in the first processing pad 1 corresponding to the position of the feeding hole based on the feeding hole;

after the wafer is placed between the first and second processing pads 1 and 2, an abrasive is added based on the feed hole and the through hole.

The abrasive is added into the processing pad through a feed hole penetrating through the upper polishing disk 7, since the first processing pad 1 has no through hole for adding the abrasive, after the release adhesive layer 3 is cleaned and removed, a through hole is required to be formed in the position of the first processing pad 1 corresponding to the filler hole, the through hole is formed by punching the first processing pad 1 through a punch, and after the through hole is punched and the wafer is placed, the wafer is polished based on the feed hole and the through hole.

The first processing pad 1 includes: a first functional layer 11 for polishing the wafer; a first back adhesive layer 12 bonded and fixed to the first functional layer 11; the second processing pad 2 includes: a second functional layer 21 for polishing the wafer; a second adhesive backing layer 22 bonded and fixed to the second functional layer 21; the first back adhesive layer 12 is used for adhering and fixing the first functional layer 11 on the upper polishing disc 7, and the second back adhesive layer 22 is used for adhering and fixing the second functional layer 21 on the lower polishing disc 8;

the adhesive force of the first adhesive backing layer 12 and the adhesive force of the second adhesive backing layer 22 are both greater than the adhesive force of the release adhesive layer 3.

First functional layer 11 passes through first gum layer 12 with it is fixed to go up to polish set 7 bonding, if first gum layer 12 adhesion is less than or equal then from the adhesion of type tie coat 3 first functional layer 11 can't with from the separation of type tie coat 3, lead to can't placing the wafer and polish, second functional layer 21 passes through second gum layer 22 with it is fixed to polish set 8 bonding down, if second gum layer 22 adhesion is less than or equal from the adhesion of type tie coat 3 then second functional layer 21 can't with from the separation of type tie coat 3, lead to can't placing the wafer and polish.

The embodiments in the present description are described in a progressive manner, or in a parallel manner, or in a combination of a progressive manner and a parallel manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments can be referred to each other. For the method disclosed in the embodiment, since the method corresponds to the component disclosed in the embodiment, the description is simple, and the relevant points can be referred to the description of the method part.

It is to be understood that in the description of the present application, the drawings and the description of the embodiments are to be regarded as illustrative in nature and not as restrictive. Like numerals refer to like structures throughout the description of the embodiments. Additionally, the figures may exaggerate the thicknesses of some layers, films, panels, regions, etc. for ease of understanding and ease of description. It will also be understood that when an element such as a layer, film, region, or substrate is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. In addition, "on …" means that an element is positioned on or under another element, but does not essentially mean that an element is positioned on the upper side of another element according to the direction of gravity.

The terms "upper," "lower," "top," "bottom," "inner," "outer," and the like refer to an orientation or positional relationship relative to an orientation or positional relationship shown in the drawings for ease of description and simplicity of description, but do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

It is further noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such assembly. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of additional like elements in a component comprising the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A processing pad assembly for a wafer polishing apparatus having an upper polishing disk and a lower polishing disk that are relatively rotatable, the processing pad assembly comprising:

the first processing pad and the second processing pad are bonded and fixed through a release bonding layer;

when the wafer is polished, the first processing pad is used for being fixedly bonded with the upper polishing disc, the second processing pad is used for being fixedly bonded with the lower polishing disc, and after the release bonding layer is removed, the wafer is arranged between the first processing pad and the second processing pad for polishing.

2. The processing pad assembly of claim 1,

the first processing pad includes: the wafer polishing device comprises a first functional layer and a first back glue layer, wherein the first functional layer is used for polishing a wafer;

the second processing pad includes: the second functional layer is used for polishing the wafer, and the second back glue layer is fixedly bonded with the second functional layer;

the first functional layer and the second functional layer are bonded and fixed through the release bonding layer, when the wafer is polished, the first back glue layer is used for bonding and fixing the first functional layer on the upper polishing disc, and the second back glue layer is used for bonding and fixing the second functional layer on the lower polishing disc.

3. The processing pad assembly of claim 2,

a first protective layer which can be torn off is stuck on the surface of the first back glue layer, which is far away from the first functional layer;

a second removable protective layer is stuck on the surface of the second back adhesive layer, which is far away from the second functional layer;

when polishing the wafer, remove first protective layer, so that first functional layer passes through first gum layer with it is fixed to go up to polish to coil the bonding, gets rid of the second protective layer, so that the second functional layer passes through the second gum layer with it is fixed to polish down to coil the bonding.

4. The processing pad assembly of claim 3, wherein the first protective layer and the second protective layer each comprise a base layer and an isolation layer;

in the same protective layer, the substrate layer is positioned on one side of the isolation layer facing the release bonding layer.

5. The processing mat assembly of claim 4, wherein the base layer comprises a laminate of one or more of a white paper layer, huang Zhiceng, a kraft paper layer, a glassine paper layer, and a cloth layer;

the isolation layer is a lamination layer of one or more of a polytetrafluoroethylene layer, a polyolefin layer, a polycarbonate layer, a polyamide layer, a polyacrylonitrile layer and a polyester layer;

the thickness of the isolation layer is 0.1mm-0.5mm.

6. The processing pad assembly of claim 2,

the surface of one side of the first functional layer, which is fixedly bonded with the release bonding layer, is provided with a bulge;

and the surface of one side of the second functional layer, which is fixedly bonded with the release bonding layer, is provided with a bulge.

7. The processing pad assembly of claim 6, comprising at least one of:

the first functional layer and the second functional layer are both one or more laminated layers of a polyurethane layer and a non-woven fabric layer;

the embossment of the first functional layer and the embossment of the second functional layer both comprise at least one of a circle or a spiral;

the thickness of the first functional layer and the second functional layer is 0.2mm-1mm.

8. The processing pad assembly of claim 1, wherein the release bonding layer is a water-soluble glue layer, the release bonding layer having a thickness of 0.1mm to 1mm.

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