10-10-2012, 04:26 PM
Lapping and Polishing Basics
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Introduction
Lapping and polishing is a process by which material is precisely removed from a workpiece (or specimen) to produce a
desired dimension, surface finish, or shape. The process of lapping and polishing materials has been applied to a wide
range of materials and applications, ranging from metals, glasses, optics, semiconductors, and ceramics. Lapping and
polishing techniques are beneficial due to the precision and control with which material can be removed. Surface finishes
in the nanometer range can also be produced using these techniques, which makes lapping and polishing an attractive
method for materials processing.
This paper describes some basics about lapping, including equipment setup, typical lapping techniques, and
nomenclature.
Back to Basics
There are several techniques used for removing material from a particular workpiece (also called specimen in this
discussion). Grinding, lapping, polishing, and CMP (chem.-mechanical polishing) are all techniques used for precise
removal of material. A brief discussion of terms is needed to understand the basics of what is being referred to when
these topics are discussed.
Grinding
Grinding can be defined as the rapid removal of material from a sample either to reduce it to a suitable size or to
remove large irregularities from the surface. The grinding wheel or plate typically rotates at a high speed (around 200-
1000rpm) and a coarse, bonded abrasive (> 40 μm) is used. Grinding is quick and relatively easy process but can
cause deep subsurface damage in delicate materials. Typically grinding is applied to hard metals such as high carbon
steels where rapid removal is essential and subsurface damage is not a critical parameter. For delicate materials the
grinding process must be a balance of material removal and subsurface damage. In many cases it is advisable to
initially cut the specimen with a gentle mechanical method such as a wire saw. A properly prepared wire saw cut
sample can eliminate the grinding process altogether.
Lapping
Lapping is the removal of material to produce a smooth, flat, unpolished surface. Lapping processes are used to
produce dimensionally accurate specimens to high tolerances (generally less than 2.5 μm uniformity). The lapping
plate will rotate at a low speed (<80 rpm) and a mid-range abrasive particle (5-20μm) is typically used. Lapping
removes subsurface damage caused by sawing or grinding and produces the required thickness and flatness.
Although the lapping process is less damaging than grinding, there are two regimes of lapping: free abrasive lapping
and fixed abrasive lapping.
Free Abrasive Lapping is when abrasive slurry is applied directly to a lapping plate (e.g. cast iron). This is perhaps
the most accurate method for producing specimens and causes the least amount of damage. Free abrasive lapping is
accurate because of the rigid lapping surface which can be tailored to suit a particular material. Fixed Abrasive Lapping
is when an abrasive particle in bonded to a substrate as with abrasive lapping films and SiC papers. Abrasive lapping
films have various particles bonded to a thin, uniform polyester substrate and are also capable of producing a very flat
surface. SiC papers are much thicker than the film and create the potential for rounded edges on the sample.
Polishing
Polishing is the removal of material to produce a scratch-free, specular surface using fine (<3μm) abrasive particles.
Polishing is typically done at very low speeds using either polishing cloths, abrasive films, or specially designed lapping
plates. Polishing with a cloth or lapping plate requires the use of free abrasive, and is a very low damage process when
performed properly. Plate material and cloth material are critical when polishing a particular sample as the properties of
these substrates are important in the final polish quality of the specimen.
Polishing with a lapping plate is a common process used in the case of metals and hard ceramic type materials.
Polishing using copper composite plates or tin / lead lapping plates can produce high quality surface finishes with high
removal rates. In many cases the use of a polishing cloth is required, and thus the selection of a proper polishing cloth
is important. Polishing cloth properties needed depend on the application. If flatness is of primary concern, short nap
cloths (such as Nylon) are used to maintain flatness. When the final surface finish is of primary concern, longer napped
cloths (such as Rayon and Silk) are used. Many cloth materials today combine the best of both worlds, allowing
flatness and surface finish combined to provide maximum performance. Polyurethane pads are commonly used for
final polishing processes and produce excellent flatness and surface finish.
Polishing with abrasive films also produces excellent results. The flatness of the films combined with high removal
rates makes them an attractive alternative to cloth and plate polishing methods.
Chem-mechanical Polishing (CMP)
Chem-mechanical polishing (CMP) is a technique that combines both chemical and mechanical polishing principles to
achieve uniform removal rates of a highly composite specimen (such as integrated circuit device fabrication). CMP is
typically done using a hard polyurethane polishing pad combined with a slurry of finely dispersed alumina or silica
particles in an alkaline solution. CMP combines the selectivity of chemical polishing with the mechanical removal
properties of standard mechanical polishing techniques. The two combined give excellent selectivity and planarity and
can be tailored to many different materials.
Lapping and Polishing Machines
Lapping and polishing machines vary extensively depending upon the manufacturer. SBT has designed a set of
instruments that are specifically designed for universal lapping and polishing applications. The Model 920 Lapping and
Polishing Machine incorporates a precision spindle assembly housed in a solid cast aluminum casting to provide stable
operation in any laboratory environment. Stability when lapping is critical in producing flat, precisely controlled
tolerances on a given specimen. The motor is a high torque, variable speed motor that allows a wide range of speeds
to be employed. Flexibility in speed control allows the instrument to be used as a grinding machine, high quality lapping
machine, or polishing machine. During grinding high speeds are required, whereas lapping and polishing applications
are generally completed at low speeds. The Model 920 also incorporates workstations, which allow for the use of
precise Lapping and Polishing Fixtures. Each workstation has it’s own speed control, allowing the user to precisely
rotate the lapping fixtures or the conditioning ring. Lapping plates are held into place with three locating pins and are
easily removable, allowing maximum flexibility in processing specimens. Various materials can be selected for the
lapping plates, ranging from aluminum, cast iron, and glass.
Below is an image showing the Model 920 with a typical setup for lapping.
Lapping and Polishing Plates
Lapping and polishing processes are performed on a hard, metal plate used in conjunction with abrasive
suspensions such as diamond, silicon carbide (SiC), aluminum oxide (Al2O3), or boron carbide (B4C). The metal
lapping plate selected depends upon the desired material removal rate, the surface finish desired, the hardness of the
specimen being lapped, and the flatness requirement.
Plate selection can play a critical role in the production of high quality specimens. Lapping plates can be flat or
grooved depending upon the desired application. Grooved plates provide greater removal rates and prevent the
abrasive from squeezing out from between the plate and the specimen.
Plate Conditioning
Plate conditioning is a process by which the lapping plate surface is machined to maintain the flatness of the
lapping plate and to “pre-condition” the lapping plate surface with the abrasive being used for the lapping process.
Plate conditioning is important for lapping applications where flatness and parallelism of the specimen is critical.
Specimen quality is a direct result of plate condition, and therefore proper maintenance of the lapping plate is crucial
in preparing high quality specimens.
Conditioning of the lapping plate is affected by two primary parameters: a) position of the conditioning ring, and b)
weight of the conditioning ring. The conditioning ring is generally a cast iron or stainless steel ring used with the
abrasive desired or with diamond plated to the bottom of the ring. Conditioning of the lapping plate also helps
maintain high removal rates during long lapping operations.
Conditioning Basics
Proper positioning of the conditioning ring can help bring a plate back into flatness if the plate has become ‘out of
flat’. Often times the plate will resemble a wavy shape due to the positioning of lapping and polishing fixture inside
the radius of the lapping plate. If the lapping plate has become concave in shape, then the conditioning ring should
be adjusted to the outer diameter of the plate. The extra work done on the lapping plate will then bring the plate
back into flatness in a short time, provided the plate is not severely out of flat by more than 0.003” (75 μm). If the
plate shape is convex, the conditioning ring should be positioned on the inner portion of the plate. Below are
examples of this process.