Jump to content
SingaporeBikes.com Telegram Now LIVE! Join NOW for the Last Reviews, News, Promotions & Offers in Singapore! ×
  • Join SingaporeBikes.com today! Where Singapore Bikers Unite!

    Thank you for visiting SingaporeBikes.com - the largest website in Singapore dedicated to all things related to motorcycles and biking in general.

    Join us today as a member to enjoy all the features of the website for FREE such as:

    Registering is free and takes less than 30 seconds! Join us today to share information, discuss about your modifications, and ask questions about your bike in general.

    Thank you for being a part of SingaporeBikes.com!

Recommended Posts

Posted

Porting - The basics

 

Porting:

 

The process of cylinder porting is a funny paradox. The people in the market to buy it are looking for information and the people in the market of selling it are hiding information on porting. So much myth and misinformation is associated with this complex machining and metal finishing process. Yet the tooling is easily available and the design of the ports is actually quite straightforward with resources like computer design programs. This article is an overview of how porting is performed and how it can benefit your performance demands.

 

Two-Stroke Principles

 

Although a two-stroke engine has fewer moving parts than a four-stroke engine, a two-stroke is a complex engine with different phases taking place in the crankcase and in the cylinder bore at the same time. This is necessary because a two-stroke engine completes a power cycle in only 360 degrees of crankshaft rotation, compared to a four-stroke engine, which requires 720 degrees of crankshaft rotation to complete one power cycle. Two-stroke engines aren't as efficient as four-stroke engines, meaning that they don't retain as much air as they draw in through the intake. Some of the air is lost out the exhaust pipe. If a two-stroke engine could retain the same percentage of air, they would be twice as powerful as a four-stroke engine because they produce twice as many power strokes in the same number of crankshaft revolutions. The following is an explanation of the basic operation of the two-stroke engine.

 

1. Starting with the piston at top dead center (TDC 0 degrees) ignition has occurred and the gasses in the combustion chamber are expanding and pushing down the piston. This pressurizes the crankcase causing the reed valve to close. At about 90 degrees after TDC the exhaust port opens ending the power stroke. A pressure wave of hot expanding gasses flows down the exhaust pipe. The blow-down phase has started and will end when the transfer ports open. The pressure in the cylinder must blow-down to below the pressure in the crankcase in order for the unburned mixture gasses to flow out the transfer ports during the scavenging phase.

2. 2.Now the transfer ports are uncovered at about 120 degrees after TDC. The scavenging phase has begun. Meaning that the unburned mixture gasses are flowing out of the transfers and merging together to form a loop. The gasses travel up the backside of the cylinder and loops around in the cylinder head to scavenge out the burnt mixture gasses from the previous power stroke. It is critical that the burnt gasses are scavenged from the combustion chamber, to make room for as much unburned gasses as possible. That is the key to making more power in a two-stroke engine. The more unburned gasses you can squeeze into the combustion chamber, the more the engine will produce. Now the loop of unburned mixture gasses have traveled into the exhaust pipe's header section. Most of the gasses aren't lost because a compression pressure wave has reflected from the baffle cone of the exhaust pipe, to pack the unburned gasses back into the cylinder before the piston closes off the exhaust port.

3. Now the crankshaft has rotated past bottom dead center (BDC 180 degrees) and the piston is on the upstroke. The compression wave reflected from the exhaust pipe is packing the unburned gasses back in through the exhaust port as the piston closes off the port the start the compression phase. In the crankcase the pressure is below atmospheric producing a vacuum and a fresh charge of unburned mixture gasses is flowing through the reed valve into the crankcase.

4. The unburned mixture gasses are compresses and just before the piston reaches TDC, the ignition system discharges a spark causing the gasses to ignite and start the process all over again.

 

 

What is Porting?

 

Porting is a metal finishing process performed to the passageways of a two-stroke cylinder and crankcases, that serves to match the surface texture, shapes and sizes of port ducts, and the timing and angle aspects of the port windows that interface with the cylinder bore. The port windows determine the opening and closing timing of the intake, exhaust, blowdown, and transfer phases that take place in the cylinder. These phases must be coordinated to work with other engine components such as the intake and exhaust system. The intake and exhaust systems are designed to take advantage of the finite amplitude waves that travel back and forth from the atmosphere. Porting coordinates the opening of the intake, exhaust, and transfer ports to maximize the tuning affect of the exhaust pipe and intake system. Generally speaking porting for more mid-range acceleration is intended for use with stock intake and exhaust systems.

 

Terminology

 

These are some common words and terms associated with porting.

 

Ports

Passageways cast and machined into the cylinder.

 

Ducts

The tube shape that comprises the ports.

 

Windows

The part of the port that interfaces the cylinder bore.

 

Exhaust Port

The large port where the burnt gasses exit the cylinder.

 

Exhaust Bridge

The center divider used on triangular shaped exhaust ports.

 

Sub-Exhaust Ports

The minor exhaust ports positioned on each side of the main exhaust port.

 

Triple Ports

One main bridgeless exhaust port with one sub exhaust port on each side.

 

Front Transfers

Transfer ports link the crankcase to the cylinder bore. The front set (2) of transfers is located closest to the exhaust port.

 

Rear Transfers

The rear set of transfers is located closest to the intake port.

 

Auxiliary Transfers

Some cylinders have a minor set of transfers located between the front and rear sets.

 

Transfer Port Area Ratio

The area of the crankcase side of the transfers divided by the area of the port window.

 

Boost Ports

The port or ports that are located opposite of the exhaust port and in-line with the intake port. These ports are usually by-pass ports for the intake or piston and sharply angled upwards to help direct the gas flow during scavenging.

 

Port-Time-Area

A mathematical computation of the area of a port, divided by the displacement of the cylinder, and multiplied by the time that the port is open. The higher an engine revs the more time-area the port needs. The higher the piston speed the less time available for the gas to flow through the port.

 

Duration

The number of crankshaft angle rotational degrees that a port is open.

 

Opening Timing

The crank angle degree when the piston uncovers the port.

 

Crank Angle

Measured in units of degrees of crankshaft rotation. On a two-stroke engine there are a total of 360 degrees of crankshaft rotation in one power cycle.

 

Port Side angle

The side angle of a port measured at the window, from the centerline of the bore with the exhaust port being the starting point (0).

 

Port Roof angle

The angle of the top of the port at the window.

 

Port Height

The distance from the top of the cylinder to the opening point of the port.

 

Top Dead Center (TDC)

The top of the piston's stroke.

 

Bottom Dead Center (BDC)

The bottom of the piston's stroke.

 

Chordal Width

The effective width of a port, measured from the straightest point between sides.

 

BMEP

Brake Mean Effective Pressure.

 

Loop Scavenging

Scavenging is the process of purging the combustion chamber of burnt gasses. Loop scavenging refers to the flow pattern generated by the transfer port duct shapes and port entry angles and area. The gasses are directed to merge together and travel up the intake side of the bore into the head and loop around towards the exhaust port.

 

Blow-Down

This is the time-area of the exhaust port between the opening time of the exhaust and the transfers. When the exhaust port opens the pressure blows down, ideally to below the rising pressure of the gasses in the transfer ports. Blow-down is measured in degrees of crank rotation and time-area.

Effective Stroke

The distance from TDC to the exhaust port height. The longer the effective stroke the better the low-end power.

Primary Compression Ratio

The compression ratio of the crankcase.

Secondary Compression Ratio

The compression ratio of the cylinder head.

Compression Waves

Pressure waves that reflects from the end of the intake or exhaust system and return to the engine.

Expansion Waves

Pressure waves that travel from the engine and out to the atmosphere.

 

Tools of the Trade

 

There are two main types of tools used in porting, measuring and grinding. Here is an overview of how these tools are used.

 

Measuring

The basic measuring tools include a dial caliper, an inside divider, and an assortment of angle gauges. The caliper is used to measure the port height, the divider is used to measure the chordal width of the port, and the angle gauges are used to measure the roof and side angles of the ports. Calipers and dividers are available from places like Sears or industrial supply stores. Angle gauges are fashioned from cardboard and specific to individual cylinders.

 

Grinding

The most common grinding tools are electric powered. They consist of a motor, speed control, flexible drive shaft, tool handle, and tool bits. The power of these motors ranges from 1/5th to 1/4th HP with a maximum rpm of 15,000. Popular manufacturers include Foredom, Dremel, and Dumor. Each company sells a full compliment of accessories for all sorts of hobbyist activities. The most popular source for cylinder porting tools and accessories is CC Specialty in Tennessee (1-800-762-6995).

 

The tool handles and bits are the secret to porting. There are two types of tool handles; straight and right angle. The straight tool handles are used for machining the port ducts. The right angle tool handles are used to gain access to the port windows from the cylinder bore. Over the years I've tested hundreds of different tool bits and arrived at some simple materials and patterns for finishing the different surfaces of a cylinder. The materials of a cylinder range from aluminum as the base casting material, to a cast iron or steel liner, or nickel composite plated cylinder bores. Here are the basic tool bits used for porting; tungsten carbide works best for aluminum, steel, and cast iron, stones are best for grinding through nickel composite. The tungsten carbide tool bits are available in hundreds of different patterns and shapes. The diamond pattern is the best performing and the shape of the bit should match the corresponding shape of the port. Stones, or mounted points as they are termed in industrial supply catalogs, are available in different shapes and grits. The grits are graded by the color of the stones. Gray being the most course and red being the most fine. The finer the grit the faster it wears but the smoother the finish.

 

Making Ports Bigger

 

Generally speaking, if you're trying to raise the peak rpm of the powerband with an aftermarket exhaust system of clutching on a snowmobile, the ports will probably need to be machined in this manner; widen the transfer ports for more time-area and raise the exhaust port for more duration. Most OEM cylinders have exhaust ports that are cast to the maximum safe limit of chordal width. Often times widening the exhaust port will cause accelerated piston and ring wear. In some cases the port will be widened so far that it breaks through into the water jacket. The internal casting on some cylinders is so thin that it prevents tuners from widening the exhaust port. Transfer ports should be widened with respect to the piston ring centering pins. The ports should have a safe margin of 2mm for the centering pin. The height of the transfer ports is based on the time-area of the exhaust port above the transfer port opening height. That is called Blow-down. The exhaust port has to evacuate the cylinder bore of burnt gasses before the transfers open, otherwise backflow will occur into the crankcase. That can cause a variety of dangerous problems like blown crank seals, chipped or burnt reeds, or in extreme circumstances a fire that can extend out of the carb. The angles of the transfers are important too. Generally speaking when the side angles direct the gasses to the intake side of the cylinder, or the roof angles are a steep angle 15-25 degrees), the porting will be better for trail-riding. When the side angles direct the gasses to the center of the cylinder and the roof angles are nearly flat (0-5 degrees), the porting will be better suited to drag or lake racing.

 

 

Making Ports Smaller

 

Ports are purposely made smaller for several reasons. One or more of the ports could have been designed too big, or a well-meaning tuner may have been overzealous, or a customer may have asked for more that he could handle. There are performance gains to be had from smaller ports, for high altitude compensation or for more punch for trail and snowcross riding. Simply using a thinner base gasket or by tunring-down the cylinder base on a lathe. Cometic Gasket Co. in Mentor Ohio makes graded gaskets from .25 to 1.5mm and even custom base plates for stroker engines. (http://www.cometic.com) Another method is by welding the perimeter of the port, although that entails replating the bore. Transfer and intake ports can be made smaller with the use of epoxy. Brand name products like DURO Master Mend or Weld-Stick are chemical resistant, easy to mold to fit, and can withstand temperatures of 400F. Master Mend is a liquid product and Weld-Stick is a semi-dry putty material. The epoxy can be applied to the roof of the ports to retard the timing and reduce the duration. It can be applied to the sides of the transfers to reduce the time-area, and it can be applied to the transfer ducts to boost the primary compression ratio (crankcase volume).

 

Porting for Big Bores

 

WISECO offers big bore piston kits for most popular snowmobiles. (http://www.wiseco.com) The average increase in displacement is 50cc per cylinder. This requires that the cylinder be over-bored 4-8mm. Because the ports enter the cylinder bore at angles, when the bore size is increased all the ports drop in height. The steeper the port angles the greater the port height will drop. Lower port heights mean retarded timing and reduced duration. The exhaust port gets narrower and the transfers get wider. A larger displacement cylinder will require more port-time-area. Normally the exhaust port needs to be raised higher than stock to compensate for the compression ratio. If you're adding a set of performance pipes at the same time as the big bore, you'll need to compensate the port timing to get the best gains from the pipes. It's a complicated thing. Sometimes tuners use thicker base gaskets to compensate for big bores, but ideally the port-time-area needs to be calculated before any serious porting changes are made. If you are strictly trail riding at high altitude, you can just have the cylinders bored and replated because the porting will inherently change to suit that type of application.

 

Big Bore Specs Link (coming soon!)

 

Computer Design Software

 

The best-kept secret in high performance tuning is the use of computer design software. These products became popular about six years ago when Tom Turner adapted the SAE programming code and added in his own empirical data from his career as a motorcycle drag racer and tuner. Tom's products are named TSR software (http://www.tsrsoftware.com) and available in MS-DOS format for PCs. The programs cover individual engine components. The most popular program for porting is PORTTIME 2000 and it sells for $200. It features target specs for all sorts of vehicles including snowmobiles. Basically a tuner types in engine spec dimensions like the bore and stroke plus all the individual port measurements. The program runs mathematical calculations in order to provide a simulation of how the porting changes will affect the engine's powerband. TSR's programs will get a tuner 90% to the engines potential. The next level of programs includes 1D and 3D gas dynamics simulators. Dynomation is a 1D simulator that sells for about $500 (http://www.audietech.com). It enables tuners to combine all the engine components together to simulate dyno runs on the computer so they can save time machining metal and swapping parts on actual dyno runs. Dr. Gordon Blair programmed the 3D simulator named Virtual Two-Stroke, the most well know two-stroke engine researcher. His program is marketed through Optimum (http://www.optimum-power.com) through lease programs. Priced at $12,000 a year, it's intended for use by engine manufacturers.

http://mywebpages.comcast.net/ShadowROne/Sig/ShadowROne/Sig3.jpg

 

Rides

1. 1999-2001 aprilia RS250

2. 2000-2002 Hexagon

3. 2001-2002 Suzuki TL1000R

4. 2002-2005 Yamaha YZF R1

5. 2005-Present SYM Magic

  • Replies 80
  • Created
  • Last Reply

Top Posters In This Topic

Posted
:? Look like copy & phase :?

:? Not real experience :?

 

Nvm ma even its not real experience, if its the truth, i think can liao lor...

Guest deganduss
Posted
:? Look like copy & phase :?

:? Not real experience :?

 

Nvm ma even its not real experience, if its the truth, i think can liao lor...

:? How do u know it's true if u don't experience it yourself :?

Guest deganduss
Posted

:? How do u know it's true if u don't experience it yourself :?

 

maybe is from his friend?

:lol: He's reading, I've done it :lol:

Guest deganduss
Posted
Never mind, im just wonder what you mean by u've done it, he is reading....

:lol: What is written hav been done in S'pore long ago :lol:

Posted

This was from a website in UK which they were racing using 2stroke bike. Got this off from them long time ago coz i wan 2 noe more abt the fact abt porting since i was riding rs250 that time. This piece of info is for someone who is interested in them. If u r not u can choose to ignore them since u tink its juz crap. True or not is up for them to decided after all i juz sharing some info i got.

http://mywebpages.comcast.net/ShadowROne/Sig/ShadowROne/Sig3.jpg

 

Rides

1. 1999-2001 aprilia RS250

2. 2000-2002 Hexagon

3. 2001-2002 Suzuki TL1000R

4. 2002-2005 Yamaha YZF R1

5. 2005-Present SYM Magic

Posted

anyone know which shop is doing the porting works for motorshops? i believe motorshops also bring the engine down to some particular ppl to do porting right?

Your best friend in forum :: Search ::

Posted

Tried asking a few mech ard last time and they wun gif a clue.. :confused:

If we noe where can get it done den we can bypass the motorshop liao thus save $ on reboring, porting and etc.. hopefully someone in this forum got some ideas where it can be done.

http://mywebpages.comcast.net/ShadowROne/Sig/ShadowROne/Sig3.jpg

 

Rides

1. 1999-2001 aprilia RS250

2. 2000-2002 Hexagon

3. 2001-2002 Suzuki TL1000R

4. 2002-2005 Yamaha YZF R1

5. 2005-Present SYM Magic

Guest deganduss
Posted
Tried asking a few mech ard last time and they wun gif a clue.. :confused:

If we noe where can get it done den we can bypass the motorshop liao thus save $ on reboring, porting and etc.. hopefully someone in this forum got some ideas where it can be done.

 

:shades: Try talk to Ah Hai at Ban Hock Hin at Rangoon Rd (talk 2 him privately) Reboring is easy, any engineering shop can do, but porting take a lot of patience as u need to do alot of grinding within the barrel/port hold. Simple porting can b done by raising the exhaust/transfer port by 2mm. But this can cause high rev. Usually he will c the piston & barrel b 4 grinding.

Can oso try asking Kenny Fatt at PG, he knows ppl in JB doing porting.

Guest ZZR-Pilot
Posted

Unlike fitting an aftermarket exhaust, re-jetting or switching sprocket ratios, port grinding is irreversible. Vital to only let someone who knows what he's doing to handle stuff like this if you don't want to burn a hole in your pocket. Unless you've got a spare engine block on hand.

 

Me, I'd stay away from any permanent mods. Easier to maintain & less headaches.

Posted

I was just thinking, when servicing the valves of 4 strokers, we are suppose to port the valve seats as well. however, there is a certain tapper angle involved in this porting. Just wondering where we can get this done also...

Guest ZZR-Pilot
Posted
I was just thinking, when servicing the valves of 4 strokers, we are suppose to port the valve seats as well. however, there is a certain tapper angle involved in this porting. Just wondering where we can get this done also...

 

That's called valve seat grinding. Usually done when your valve koyak and wore out the seat. Coz when you install a new valve, the seat must be finely ground out with a lapping tool to ensure that the new valve seats properly (otherwise the valve won't be able to dissipate heat into the cylinder head and burn out).

 

Porting on 4-strokers refers to grinding out the intake and exhaust ports to improve gas flow in and out of the combustion chamber. Totally different.

Posted

That's called valve seat grinding. Usually done when your valve koyak and wore out the seat. Coz when you install a new valve, the seat must be finely ground out with a lapping tool to ensure that the new valve seats properly (otherwise the valve won't be able to dissipate heat into the cylinder head and burn out).

 

Porting on 4-strokers refers to grinding out the intake and exhaust ports to improve gas flow in and out of the combustion chamber. Totally different.

 

Yup, any idea where grinding can be done? DIY can be done by using the original valve stem and a grinding agent but a bit hard to do it evenly.

Posted

Porting should always be done by an experienced and trusted mechs, there are only a handful of them in Singapore but an abundant pool in JB. Make sure you go to a shop that's proven it's calibre coz you'll end up regretting what is done if you aren't satisfied. The most popular form of porting is the block porting, although it accelerates your fuel consumption and you'd have to set the timing and change to bigger plugs but if it's done properly the results are wonderful. The other option is skimming.

All that is gold does not glitter, Not all who wander are lost; The old that is strong does not wither, Deep roots are not reached by the frost. From the ashes a fire shall be woken, A light from the shadows shall spring; Renewed shall be blade that was broken: The crownless again shall be king.

Guest ZZR-Pilot
Posted
Yup, any idea where grinding can be done? DIY can be done by using the original valve stem and a grinding agent but a bit hard to do it evenly.

 

Wah, if you're handy with the grinding paste and know your way around the cylinder head then can try at home lor.

 

Here, most reputable big bike shops will be able to do it. It's a relatively common thing on this side of the causeway because all the ZXR250s in Malaysia have a nasty habit of screwing up the valves & valve seats.

 

Dunno about SG. Err.. your ST11 valves koyak already meh??

Posted
Wah, if you're handy with the grinding paste and know your way around the cylinder head then can try at home lor.

 

Here, most reputable big bike shops will be able to do it. It's a relatively common thing on this side of the causeway because all the ZXR250s in Malaysia have a nasty habit of screwing up the valves & valve seats.

 

Dunno about SG. Err.. your ST11 valves koyak already meh??

 

Just curious in case I need to do it. ;)

Posted

as for 4 stroke engines, seat grinding can b done CNC in spore.as for 2 strokes, porting,re- sleevin w/o sleeve kit... ...all can b done in spore too.jus dat the people doin it do not advertise cos its labourous and time consuming yet un-lucrative... wish to noe more pls feel free to drop a mail to [email protected] :p

  • 2 months later...
  • 1 month later...
Guest FireSpitter
Posted
The other option is skimming.

 

Porting is an art & a skill with GREAT patience needed. I have some clue, how & what can be done but with butter fingers holding a port drill and absolutely NO patience.... SIGH!!

 

I used to know a GREAT 2 stroke porter, his masterpiece (Coupled with a skilled rider) went to sweep most events they took part in PG races. Unfortunately, the last time I saw him was in the early 90s!! DOUBLE SIGH!!! Anybody else know of any good porter?

 

By the way, skimming is an ABSOLUTE NO NO for 4 stroke motors!!! Picture your 4 stroke engine with overhead cams & the chain. Now skim the head and you'll end up with a lower head, overall shorter engine (abeit by only a little). For example (ONLY), for every rotation of your cam chain, you'd get a full 4 stroke cycle. With a skimmed head, you'd end up with a full 4 stroke cycle minus the "missing" height. Operating at several thousand rpm all of the time, almost daily... it would be asking for a valve/piston love meeting in the near future.

Guest FireSpitter
Posted

 

isnt skimming gonna increase the compression ratio thus improves thermal efficiency?

 

It does but at the expense of screwing the cam/crank timing after prolonged usage for 4 stroke engines.

Join the conversation

You can post now and register later. If you have an account, sign in now to post with your account.

Guest
Reply to this topic...

×   Pasted as rich text.   Paste as plain text instead

  Only 75 emoji are allowed.

×   Your link has been automatically embedded.   Display as a link instead

×   Your previous content has been restored.   Clear editor

×   You cannot paste images directly. Upload or insert images from URL.


  • DAIS_ShellBAU2024_Motorcycle_SingaporeBikesBanner_300x250.jpg

     
×
×
  • Create New...