Issue 5 April 2012 - Clyde Valley Pistol Club
Transcription
Issue 5 April 2012 - Clyde Valley Pistol Club
CLYDE VALLEY PISTOL CLUB NEWSLETTER Secretary’s Welcome Well its mid April which means that the AGM is only weeks away. The committee have set a date of the 21st of May for the AGM, 7.30pm as usual. Invites and notices will be sent out in due course The clubs finances continue to improve, however as advised last month we are still facing a £2000+ bill for water rates. Our treasurer is doing his best to try and resolve that problem but it is looking less and less likely that we will get a reprieve. In addition to the above potential bill we have just renewed our NRA membership (which we must hold by law) and buildings insurance which come to a combined total of a little over £1400.00. It is not cheap running a club like ours so if you are still to amend your Standing Order or square up your fees, please do so ASAP. AGM 2011/2012 The Clubs AGM will take place on the evening of the 21st of May at 7.30pm prompt. All members are welcome to attend but please note that only full members are eligible to vote. If you have anything you would like raised at the AGM please Email the details to the secretary no later than 7 days before the date Issue No: 5 April 2012 Official notices will be sent out in due course. Up and Coming Club Courses and Events Work Party No Work Parties Currently Schedules Competition The clubs own internal leagues are now underway. All members are welcome to join in on this. Courses Date to be set Full Bore Shoots Blair Adam: 24th March 200 yards 21st April 200/500 yards 19th May 500 yards 23rd June 200 yards 21st July 200/500 yards 25th August 500 yards 22nd September 200yards 27th October 200/500 yards 24th November 500 yards 09.00 to 15.00winter/16.00summer Faslane: 8th April (Change to the original date. 14th April 20th May 16th June 15th July 18th August 15th September 14th October 17th November 9th December All Noon to 1500/1600 There are no fees to either of the above for CVPC members. Non CVPC members pay £10 at Blair Adam and £5 at Faslane. Issue No: 5 April 2012 Treasurers Report As mentioned above we are still attempting to get 100% relief from the Scottish Water bill. This is proving to be a difficult and length process but we are doing what we can to make it happen. If we are unable to get a relief then this will be reflected in any increase in annual fees. Coaches Reports There has been a change in coach, so no report this month Club Membership With numbers continuing to increase we have decided to open up on a Monday night for a trial period from the 16th April for firearms and airguns. Initially this will be on an Informal bases to see what kind of response we can get. If it proves successful then we will extend it for a longer period, opening the books for non FAC holders etc. One thing to remember the 2nd Monday of each month is when the committee meet so there will be no shooting that night. Work Party Report No Work Party this month. Range Report The first of our own bookings at Blair Adam was an un-resounding failure! Although it was basically a beautiful day the hill and field were covered in fog the whole day (well almost – read on!). Turn out was very good with about 20 present and another few waiting in the car park to see if the weather would change. Issue No: 5 April 2012 Unfortunately it didn’t and at 1.00pm instructions were given to put the targets away and clear up. Sadly just as the last butts party was walking down the range the fog cleared to expose a beautiful day and the hill – Doh!!!! There was no point however, in setting back up as our booking for the day was almost over and putting one round down range would have meant we pay for the entire day, so we all headed home somewhat dejected. Our second date could not have been more different. With 25 people in attendance the weather in the morning was great and we kicked off at 200 yards about 9.30am. With 5 lanes open target 1 was initially set up for probationers training and lane 5 for a precision comp. Lanes 2-4 were available for zeroing, practice and plinking. By late morning lane 1 was changed to a McQueens target. Both competitions were well shot and I think enjoyed by all who took part and everyone had an enjoyable day out. Well done to Bobby Robertson and Mike Barton for their scores on the Precision and McQueens and to our youngest shooter (12 year old Murray) who can second equal on the McQueens (and didn’t do to bad on the precision either). I think we will all have to keep an eye on him, especially me! Shooters Odd Box Dots & Dashes Introducing another way of range-finding, using a zoom ’scope. FRANK BERRY explains IF YOU USE A ZOOM SCOPE, the chances are its reticule will be on the second focal plane, which means that as you increase the magnification, the dots, dashes, or whatever reference marks it incorporates, will remain unaltered while the target image grows larger. Besides giving the shooter a less obstructed view of his target, it is possible to employ this effect as a method to establish how far away the target is. Issue No: 5 April 2012 The formula for this is : R SxMxC , where ( D 1) R equals the Range S equals the Size of the Target M equals the Magnification Setting C equals the Constant of the Scope D equals the number of Dots (or Dashes) used to bracket the target. Finding the constant for your scope This is the factor tied in to the scope at some point in its construction. To be honest, I did not know what else to call it, but once you know what it is for your scope, you apply it every time you want to estimate the range of a given object. Here is how to calculate it. Start with a target whose size you know, place it at a known distance, and turn the zoom on your scope until you bracket your target between two (or more) dots. Then, modify the above formula to read C Rx(D 1) and substitute the known values. SxM For example, at 25 yards (900 inches), my Zero Option scope brackets a one inch target between two dots at a magnification of 9. My formulalooked like this: C 900 x(2 1) . It follows therefore, that 1x9 the constant for my Zero Option scope is 100. On the other hand, I have a Simmons model that brackets a oneinch mark at the same distance when on 18X; the value of its Constant is 50. So, how does this work in the real world? A while ago, I was at the edge of a field that contained a water trough. I knew the height of the trough was 30 inches, so to work out how far away it was I turned the scope until I had it bracketed between 9 dots at a magnification of 14.5. The sum read as follows R 30x14.5x100 or, R 43500 or, R=5437.5 (9 1) 8 inches, which is 151 yards. A laser range finder set the distance at 147 yards. This may seem likean awful lot of maths, but I’ve used an extreme example to illustrate the principle. By manipulating the equation, you can also use it to generate a reference point for distances other than your current zero. For example, if you know the distance to a target is 200 yards, and that at its current setting your rifle will shoot 10 inches low at that range, you can calculate the amount of dots to hold over at your chosen magnification. Assume you are using a 16X setting on a scope with a constant of 50 (like my Simmons). How many dots make 10 inches? Issue No: 5 April 2012 ( D 1) SxMxC R or, ( D 1) 10 x16 x50 7200 or, ( D 1) 8000 7200 or D=1 +1.1, or just over 2 dots, which is how much holdover you should need. Laser rangefinders are very precise and, in most circumstances, easy to use. They have certain drawbacks, however: such as targeting small objects, which tend not to reflect well, and they don’t let you measure anything except distance. The formula above has various functions, which I hope would make it—if not a replacement to a dedicated rangefinder—a potentially helpful addition. The measurements given here are Imperial, but the formula also works with metric values. Top Tips Website Time If anyone has a useful or favourite website this is the place to share it with other members For the AR15/M16 lovers amongst us have a look at these:www.Ar15.com www.M4carbine.net www.lannertactical.com For those that like Tactical long arms (and superior accuracy):www.deserttacticalarms.com www.youtube.com/user/DesertTacticalArmsUT?blend=2&ob=videomustangbase www.accuracyinternational.com For the accuracy nuts amongst us, try these:www.accurateshooter.com www.6mmbr.com Handy Suppliers:- www.rimfiremagic.co.uk www.voodootactical.com (or .net) www.valleyarmsscotland.co.uk Anyone for Reloading Data:www.hodgdon.com (check out their reloading data centre) Issue No: 5 April 2012 The others:www.sportingservices.co.uk/aics.asp www.silencertalk.com http://www.702shooter.com I will try and update the above list each month with useful websites. If you have a favourite site, let me have the details and I will add it to the list. M16 Part 3 M16 adoption Curtis LeMay viewed a demonstration of the AR-15 in July 1960. In the summer of 1961, General LeMay had been promoted to the position of USAF Chief of Staff, and requested an order of 80,000 AR-15s for the U.S. Air Force.[22] However under the recommendation of General Maxwell D. Taylor, who advised the Commander in Chief that having two different calibers within the military system at the same time would be problematic, President Kennedy turned down the request.[22] However, Advanced Research Projects Agency, which had been created in 1958 in response to the Soviet Sputnik program, embarked on project AGILE in the spring of 1961. AGILE's priority mission was to devise inventive fixes to the communist problem in South Vietnam. In October 1961, William Godel, a senior man at ARPA, sent 10 AR15s to South Vietnam to let the allies test them. The reception was enthusiastic, and in 1962 another 1,000 AR-15s were sent to South Vietnam.[23] Special Operations units and advisers working with the South Vietnamese troops filed battlefield reports lavishly praising the AR-15 and the stopping effectiveness of the 5.56 mm cartridge, and pressed for its adoption. However, what no one knew, except the men directly using the AR-15s in Vietnam, were the devastating kills[24] made by the new rifle, photographs of which, showing enemy casualties made by the .223 (5.56 mm) bullet remained classified into the 1980s.[24] The damage caused by the .223 (5.56mm) "varmint"[24] bullet was observed and originally believed to be caused by "tumbling" due to the slow 1 in 14-inch (360 mm) rifling twist rate.[25] However, this twist rate only made the bullet less stable in air.[25] Any pointed lead core bullet will turn base over point ("tumble") after penetration in flesh, because the center of gravity is aft of the center of the projectile.[25] The large wounds observed by soldiers in Vietnam were actually caused by projectile Issue No: 5 April 2012 fragmentation, which was created by a combination of the projectile's velocity and construction.[25] U.S. Secretary of Defense Robert McNamara now had two conflicting views: the ARPA report favoring the AR-15 and the Pentagon's position on the M14. Even President John F. Kennedy expressed concern, so McNamara ordered Secretary of the Army Cyrus Vance to test the M14, the AR-15 and the AK-47. The Army's test report stated only the M14 was suitable for Army use, but Vance wondered about the impartiality of those conducting the tests. He ordered the Army Inspector General to investigate the testing methods used, who reported that the testers showed favor to the M14. U.S. Soldier cleans his XM16E1 during the Vietnam War in 1966. Secretary Robert McNamara ordered a halt to M14 production in January 1963, after receiving reports that M14 production was insufficient to meet the needs of the armed forces. Secretary McNamara had long been a proponent of weapons program consolidation among the armed services. At the time, the AR-15 was the only rifle that could fulfill a requirement of a "universal" infantry weapon for issue to all services. McNamara ordered the weapon be adopted unmodified, in its current configuration, for immediate issue to all services, despite receiving reports noting several deficiencies with the M16 as a service rifle, including the lack of a chromelined bore and chamber, the 5.56 mm projectile's instability under arctic conditions,[citation needed] and the fact that large quantities of 5.56 mm ammunition required for immediate service were not available.[citation needed] In addition, the Army insisted on the inclusion of a forward assist to help push the bolt into battery in the event that a cartridge failed to seat in the chamber through fouling or corrosion. Colt had argued the rifle was a self-cleaning design, requiring little or no maintenance. Colt, Eugene Stoner, and the U.S. Air Force believed that a forward assist needlessly complicated the rifle, adding about $4.50 to its procurement cost with no real benefit. As a result, the design was split into two variants: the Air Force's M16 without the forward assist, and for the other service branches, the XM16E1 with the forward assist. In November 1963, McNamara approved the Army's order of 85,000 XM16E1s for jungle warfare operations;[26] and to appease General LeMay, the Air Force was granted an order for another 19,000 M16s.[16][27] Meanwhile, the Army carried out another project, the Small Arms Weapons Systems, on general infantry firearm needs in the immediate future. They recommended the immediate adoption of the weapon. Issue No: 5 April 2012 Later that year the Air Force officially accepted their first batch as the United States Rifle, Caliber 5.56 mm, M16. The Army immediately began to issue the XM16E1 to infantry units but the rifle was initially delivered without adequate cleaning supplies or instructions. When the M16 reached Vietnam with U.S. troops in March 1965, reports of stoppages in combat began to surface. Often the gun suffered from a stoppage known as “failure to extract,” which meant that a spent cartridge case remained lodged in the chamber after a bullet flew out the muzzle.[28] Although the M14 featured a chrome-lined barrel and chamber to resist corrosion in combat conditions, neither the bore nor the chamber of the M16/XM16E1 was chrome-lined. Several documented accounts of troops killed by enemy fire with inoperable rifles broken-down for cleaning eventually brought a Congressional investigation.[29] “ We left with 72 men in our platoon and came back with 19, Believe it or not, you know what killed most of us? Our own rifle. Practically every one of our dead was found with his [M16] torn down next to him where he had been trying to fix it. - Marine Corps Rifleman, Vietnam.[29] ” The root cause of the stoppages turned out to be a problem with the powder for the ammunition. In 1964 when the Army was informed that DuPont could not massproduce the nitrocellulose-based powder to the specifications demanded by the M16, the Olin Mathieson Company provided a high-performance ball propellant of nitrocellulose and nitroglycerin. While the Olin WC 846 powder was capable of firing an M16 5.56 mm round at the desired 3,300 ft (1,000 m) per second, it had the unintended consequence of increasing the automatic rate of fire from 850 to 1000 rounds per minute. This would leave behind dirty residue, making the M16 more likely to have a stoppage. The problem was resolved by fitting the M16 with a buffer system, slowing the rate of fire back down to 650 to 850 rounds per minute and outfitting all newly produced M16s with an anti corrosive chrome-plated chamber.[30] On February 28, 1967, the XM16E1 was standardized as the M16A1. Major revisions to the design followed. The rifle was given a chrome-lined chamber (and later, the entire bore) to eliminate corrosion and stuck cartridges, and the rifle's recoil mechanism was re-designed to accommodate Army-issued 5.56 mm ammunition. Rifle cleaning tools and powder solvents/lubricants were issued. Intensive training programs in weapons cleaning were instituted, and a comic book style manual was circulated among the troops to demonstrate proper maintenance.[16] The reliability problems of the M16 diminished quickly, although the rifle's reputation continued to suffer.[16] According to a February 1968 Department of Defense report the M16 rifle achieved widespread acceptance by U.S. troops in Vietnam. Only 38 of 2100 individuals queried wanted to replace the M16 with another weapon. Of those 38, 35 wanted the CAR-15 (a shorter version of the M16) instead.[31] Issue No: 5 April 2012 [edit] NATO standards German Army soldiers of the 13th Panzergrenadier Division qualify with the M16A2 at Würzburg, as part of a partnership range with the U.S. 1st Infantry Division. Vietnam era 20-round magazine (left) and Current issue NATO STANAG 30-round magazine (right). In March 1970, the U.S. stated that all NATO forces should eventually adopt the 5.56x45mm cartridge. This shift represented a change in the philosophy of the military's long-held position about caliber size. By the middle of the 1970s, other armies were also looking at M16-style weapons. A NATO standardization effort soon started, and tests of various rounds were carried out starting in 1977. The U.S. offered their original 5.56x45mm design, the M193, with no modifications, but there were concerns about its penetration in the face of the wider introduction of body armor. In the end the Belgian 5.56x45mm SS109 round was chosen (STANAG 4172). Their round was based on the U.S. cartridge but included a new 62 grain bullet design with a small steel tip added to improve penetration. The U.S. Marine Corps was first to adopt the round with the M16A2, introduced in 1982. This was to become the standard U.S. military rifle. The NATO 5.56x45mm standard ammunition produced for U.S. forces is designated M855. Shortly after NATO's acceptance of the 5.56x45mm NATO rifle cartridge in October 1980.[32] Draft Standardization Agreement 4179 (STANAG 4179) was proposed in order to allow the military services of member nations easily to share rifle ammunition and magazines during operations, at the individual soldier level, in the interest of easing logistical concerns. The magazine chosen to become the STANAG magazine was originally designed for the U.S. M16 rifle. Many NATO member nations, but not all, subsequently developed or purchased rifles with the ability to accept this type of magazine. However the standard was never ratified and remains a 'Draft STANAG'[33] Issue No: 5 April 2012 The NATO Accessory Rail STANAG 4694, or Picatinny rail STANAG 2324, or a "Tactical Rail" is a bracket used on M16 type rifles in order to provide a standardized mounting platform. The rail comprises a series of ridges with a T-shaped cross-section interspersed with flat "spacing slots". Scopes are mounted either by sliding them on from one end or the other; by means of a "rail-grabber" which is clamped to the rail with bolts, thumbscrews or levers; or onto the slots between the raised sections. The rail was originally for scopes. However, once established, the use of the system was expanded to other accessories, such as tactical lights, laser aiming modules, night vision devices, reflex sights, foregrips, bipods, and bayonets. All current M16 type rifles are capable of launching NATO STANAG type 22mm rifle grenades from their integral flash hiders without the use of an adapter. These 22 mm grenade types range from powerful anti-tank rounds to simple finned tubes with a fragmentation hand grenade attached to the end. They come in the "standard" type which are propelled by a blank cartridge inserted into the chamber of the rifle. They also come in the "bullet trap" and "shoot through" types, as their names imply use live ammunition. The U.S. military does not generally use rifle grenades, however they are used by other Nations. Currently, the M16 is in use by 15 NATO countries and more than 80 countries world wide. Loading an M203 40 mm grenade launcher attached to an M16 rifle with a practice round. [edit] Grenade launcher The M203 40 mm grenade launcher was originally designed to be mounted on the M16 and its variants. It uses the same rounds as the older M79 "shotgun"-type grenade launcher, which utilize High-Low Propulsion System to keep recoil forces low. The M203 is versatile and compatible with many rifle models. It is widely used by the U.S. Military and is routinely seen on the M4 Carbine. The launcher can also be mounted onto the Canadian made C7, and requires the bottom handguard on the rifle to be removed in order to mount the launcher. Issue No: 5 April 2012 [edit] Design Top drawing is of an A2-style rifle; bottom drawing is of an A2-style rifle with A1 rear sights (as with the C7) The M16's receivers are made of 7075 aluminum alloy, its barrel, bolt, and bolt carrier of steel, and its handguards, pistol grip, and buttstock of plastics. Early models were especially lightweight at 6.5 pounds (2.9 kg) without magazine and sling. This was significantly less than older 7.62 mm "battle rifles" of the 1950s and 1960s. It also compares with the 6.5 pounds (2.9 kg) AKM without magazine.[34] M16A2 and later variants (A3 & A4) weigh more (8.5 lb (3.9 kg) loaded) because of the adoption of a thicker barrel profile. The thicker barrel is more resistant to damage when handled roughly and is also slower to overheat during sustained fire. Unlike a traditional "bull" barrel that is thick its entire length, the M16A2's barrel is only thick forward of the handguards. The barrel profile under the handguards remained the same as the M16A1 for compatibility with the M203 grenade launcher. The rifle is the same length as the M16A2. The M16 rifle fires the 5.56x45mm cartridge and can produce massive wounding effects when the bullet impacts at high velocity and yaws in tissue leading to fragmentation and rapid transfer of energy.[35][36][37] This produces wounds that were so devastating that the International Committee of the Red Cross (ICRC)[38] and many countries (Austria, Argentina, Belgium, Bolivia, Bulgaria, Burundi, Cambodia, Cyprus, Germany, Ireland, Latvia, Lithuania, Luxembourg, Mauritius, Mexico, Romania, Samoa, Slovenia, Sweden, Switzerland, etc.)[39] considered the M16 to be an inhumane weapon.[40][41] One distinctive ergonomic feature is a plastic or metal stock directly behind the action, which contains a recoil spring.[42] This serves the dual function of operating spring and recoil buffer.[42] The stock being in line with the bore reduces muzzle rise, especially during automatic fire. Because recoil does not significantly shift the point of aim, faster follow-up shots are possible and user fatigue is reduced. Another distinctive ergonomic feature is a carrying handle on top of the receiver, with an integrated rear sight assembly and charging handle. This design is a by-product of the original design where the carry handle served to protect the charging handle and mount a scope.[42] In practice, the handle is rarely used to carry the weapon and doing so is expressly prohibited in many military organizations, as it is considered unsafe.[citation needed] Holding the weapon by the pistol grip provides quicker response time and better "muzzle awareness," while a shoulder sling provides a more convenient option when response time is not a concern.[citation needed] The "accessory rail" is also considered unsafe to use after the weapon has been fired for prolonged periods as enough heat, to melt flesh, will transfer from the receiver to the handle. Issue No: 5 April 2012 More importantly, with the sight plane 2.5 in (63.5 mm) over the bore, the M16 has an inherent parallax problem that can be confounding to shooters. At closer ranges (typically inside 15–20 meters), the shooter must aim high in order to place shots where desired. Newer models have a "flattop" upper receiver with a Picatinny rail, to which the user can attach either a conventional sighting system or numerous optical devices such as night vision scopes. The M16 utilizes direct impingement gas operation; energy from high-pressure gas tapped from a non-adjustable port built into the front sight assembly actuates the moving parts in the weapon. Combustion gases travel via a gas tube above the barrel directly into a chamber in the bolt carrier behind the bolt itself, pushing the carrier away from the bolt. This reduces the number of moving parts by eliminating the need for a separate piston and cylinder and it provides better performance in rapid fire by keeping reciprocating masses on the same axis as the bore.[citation needed] The primary criticism of direct impingement is that fouling and debris from expended gunpowder is blown directly into the breech. As the superheated combustion gas travels down the tube, it expands and cools. This cooling causes vaporized matter to condense as it cools depositing a much greater volume of solids into the operating components of the action. The increased fouling can cause malfunctions if the rifle is not cleaned as frequently as should be. The amount of sooting deposits tends to vary with powder specification, caliber, and gas port design. In April 2010 TACOM Life Cycle Management Command issued permission for soldiers to camouflage M4/M16 weapons with paint if given command approval. Final Part next issue Footnotes No Footnotes this months Picture Spot Blair Adam 21st April: Issue No: 5 April 2012 Issue No: 5 April 2012 If anyone has shooting any related pictures that they would like to share with other members then this is the place to do that. Issue No: 5 April 2012 PETITION TO FORCE A RETURN TO 22 PISTOL SHOOTOING Many of you will have seen this already and Im sure have signed it. For those that haven’t I strongly recommend that you sign onto the Epetition (link below) for a return of .22 pistols. It may not do any good but it may just get a result. In any case it takes 2 minutes and can’t hurt! https://submissions.epetitions.direct.gov.uk/petitions/360 Thats it for issue 4 If anyone would like something included in the next issue please send me the details to: wb.4570gov@blueyonder.co.uk Please note if you do have something you would like included please don’t send it as a PDF. Word or Excel documents are ideal. Until next time, keep yer powder dry!