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Bosphorus Bridge

The 15 July Martyrs' Bridge, previously known as the Bosphorus Bridge or Boğaziçi Bridge, is a spanning the Bosphorus strait in , , connecting the European side at to the Asian side at Beylerbeyi and facilitating the first modern fixed crossing between the continents. Opened on 30 October 1973 after three years of construction by a of Turkish and firms, the bridge features a main span of 1,074 meters between its 165-meter-high towers, making it the fourth-longest worldwide at the time and a key enabler of Istanbul's intercontinental urban expansion and . Its total length measures 1,560 meters with a deck width of 33.4 meters supporting eight lanes of vehicular traffic, though it has faced ongoing challenges from heavy congestion and seismic vulnerabilities in the earthquake-prone region. Renamed in July 2016 to honor civilians killed resisting the failed military coup attempt of that month, the bridge symbolizes 's infrastructural ambitions alongside periodic upgrades like its computerized LED illumination system installed in 2007 for dynamic nighttime displays.

Historical Development

Early Proposals and Precedents

The earliest precedents for crossing the Bosphorus Strait involved temporary s constructed by forces during ancient military campaigns. In 513 BC, ordered the building of a spanning the strait to facilitate his invasion of Scythian territories north of the ; this structure, engineered by the Greek Mandrocles of , consisted of boats lashed together and supported by a and roadway, enabling the passage of his army from (on the Asian side) to (European side). Similar temporary floating bridges had been attempted earlier, but Darius's crossing marked a notable feat for its time, though it was dismantled after use. These ancient efforts highlighted the strategic importance of linking the continents but were limited by the strait's strong currents and variable depths, precluding permanent structures. Modern proposals for a fixed bridge emerged in the late amid growing interest in rail and road infrastructure. In March 1900, French engineer Ferdinand Arnodin submitted a design for a to Sultan Abdul Hamid II, envisioning a suspended cable system to carry vehicles and pedestrians across the strait between points near the present-day bridge site; this was part of broader schemes by the Bosphorus Railroad Company to integrate rail lines connecting and . The proposal, which aimed to avoid the need for massive piers in deep waters, received preliminary approval but was abandoned due to financial constraints and political instability, including the . Throughout the 19th and early 20th centuries, additional Ottoman-era ideas surfaced, often tied to European concessions for railways, yet none advanced beyond planning stages amid the empire's economic decline and disruptions. In the Republican period, momentum built with more concrete initiatives. Industrialist Nuri Demirağ, inspired by the under construction in , commissioned international experts in 1931 to draft a plan linking Ahırkapı on the European side to Salacak on the Asian side; the resulting project, presented to in 1934 after three years of study, projected a cost of 11 million Turkish liras and emphasized economic unification of the city but stalled due to funding shortages and Demirağ's falling out with the government over aviation ventures. By 1957, Prime Minister revived the concept, directing feasibility studies that identified the Ortaköy-Beşiktaş area as optimal, though political upheaval—including Menderes's execution in 1961—delayed action until the late 1960s, when international tenders were issued for engineering designs. These efforts underscored persistent technical hurdles, such as seismic risks and navigational clearance for shipping, which earlier proposals had underestimated.

Construction and Engineering Challenges

The construction of the Bosphorus Bridge began in February 1970 and was completed in approximately 3.5 years, with the structure opening to traffic on October 30, 1973. The project involved a consortium led by the Turkish firm Construction for approach roads, alongside Bridge and Engineering Company from the for the superstructure and AG from for the piers and anchorages; design oversight was provided by the British firm Freeman Fox & Partners. Approximately 400 workers and 35 engineers addressed the demands of erecting a with a 1,074-meter main span across the strait. A primary engineering challenge stemmed from the Bosphorus Strait's hydrology, including strong tidal currents that reached velocities capable of displacing construction equipment and materials during foundation and tower placement. Water depths in the vicinity extended to around 60 meters, necessitating specialized underwater methods such as stabilized caisson-like foundations to ensure stability against lateral forces from these currents. Heavy maritime traffic through the strait further complicated operations, requiring precise timing for immersions and placements to minimize interference with shipping lanes. Seismic risks posed another critical hurdle, given Istanbul's location near the , which demanded designs incorporating flexibility in the suspension system and robust internal fixings in the 165-meter-high steel towers to absorb potential earthquake-induced oscillations. The aerodynamic hollow box-girder deck, inspired by earlier spans like the , was engineered to resist wind loads exacerbated by the strait's funneling effect, while inclined hangers distributed stresses under dynamic environmental and seismic conditions. These challenges were overcome through iterative modeling and on-site adaptations, including cable-spinning techniques adapted for the span's length and environmental variability, resulting in a structure that, upon completion, ranked as the fourth-longest suspension bridge globally and the longest outside the United States.

Design and Technical Features

Structural Specifications

The Bosphorus Bridge is a gravity-anchored suspension bridge with steel towers and inclined (diagonal) hangers, classifying it as a single-span, two-tower steel structure designed for motorway traffic. Its total length spans 1,560 meters, including a central main span of 1,074 meters between the towers and shorter side spans extending to the anchorages. The towers each reach a height of 165 meters above sea level, supporting the main suspension cables that drape in a parabolic curve across the strait. The bridge deck, engineered with an aerodynamic profile to mitigate wind-induced oscillations, measures 33.40 meters in width and carries six lanes of vehicular traffic at a clearance of 64 meters above the Bosphorus waterway. Suspension relies on primary steel cables from which the deck is suspended via zigzag inclined hangers, enhancing stiffness against dynamic loads such as traffic and seismic activity prevalent in the region. Anchorages consist of massive gravity blocks embedded in the shorelines to counteract the horizontal tension forces from the cables, a design choice suited to the geological conditions of Istanbul's alluvial soils and underlying bedrock.

Innovative Engineering Elements

The Bosphorus Bridge incorporates an aerodynamic hollow steel box girder deck, engineered as a streamlined section to mitigate wind effects prevalent in the Bosphorus Strait. This design reduces the structure's susceptibility to vortex-induced vibrations and , drawing from lessons of earlier failures like the Tacoma Narrows, while minimizing overall weight for the 1,074-meter main span. The utilizes orthotropic steel construction, integrating the deck plate, longitudinal stiffeners, and transverse floor beams into a composite system that efficiently transfers loads through orthotropic anisotropy. This innovation enabled a lighter —critical for spanning the strait without excessive material use—while maintaining rigidity under live loads from vehicular traffic. At completion in 1973, such orthotropic decks represented advanced application in long-span suspension bridges outside major Western projects. Inclined steel hangers suspend the from the main cables, imparting additional and aerodynamic by triangulating forces and oscillations more effectively than purely vertical arrangements. These hangers, spaced variably to optimize load distribution, enhanced torsional resistance in the original configuration, though subsequent replacements with vertical hangers in addressed observed slackening under extreme winds. The 165-meter steel towers feature internal fixings and modular assembly techniques, streamlining on-site erection by allowing prefabricated components to be hoisted and connected efficiently amid challenging marine conditions. Gravity anchorages, embedded deeply into on both shores, provide the foundational stability essential for the self-anchored tension in the 12.6 cm galvanized main cables, each comprising 11,808 wires.

Inauguration and Operational History

Opening and Initial Operations

The Bosphorus Bridge was inaugurated on October 29, 1973, by President Fahri Korutürk to coincide with the 50th anniversary of the founding of the Republic of Turkey. Construction had begun on February 20, 1970, and the structure was completed by June 1, 1973, at a cost of approximately US$200 million. The bridge opened to vehicular traffic the following day, October 30, 1973, at 12:00, marking the first permanent fixed crossing over the Bosphorus Strait and directly linking the European district of Ortaköy with the Asian district of Beylerbeyi. Initial tolls were set at 10 for automobiles, with the bridge operating as a facility primarily to recoup costs, expected to yield at least 35 percent in the first year of operation. The opening drew over one million visitors, reflecting public enthusiasm for the new infrastructure that alleviated dependence on ferry services for intercontinental travel in . Pedestrian access was introduced later on May 2, 1974, for a of one , facilitated by elevators at the bridge's towers, though this was discontinued in 1978 due to repeated suicide attempts. In its early years, the bridge handled growing traffic volumes, transitioning Istanbul's transport from predominantly maritime ferries to road-based connectivity, though specific daily usage figures from the immediate post-opening period are not comprehensively documented in available records. The structure's design supported initial loads without reported major operational disruptions, establishing it as a critical for the city's economic and urban integration across the .

Renaming and Associated Debates

![Sign at the toll plaza displaying the bridge's renamed title, 15 Temmuz Şehitler Köprüsü][float-right] On July 25, 2016, Turkish Prime Minister announced the renaming of the Bosphorus Bridge to 15 Temmuz Şehitler Köprüsü (15 July Martyrs Bridge), commemorating the civilians killed while resisting the July 15, 2016, coup attempt. The bridge served as the initial focal point for coup participants, who seized it to block movement between Istanbul's and Asian sides, leading to clashes where 34 civilians and seven soldiers died before the troops surrendered. This change honored those deemed martyrs by the government for defending democratic institutions against what officials described as a Gülenist faction within the military. The renaming aligned with a nationwide pattern of to mark the coup's suppression, including airports and squares, as a means to reinforce national unity and vigilance against perceived internal threats. Proponents, including spokespeople, emphasized the bridge's role as the "first target of the coup plotters," symbolizing civilian heroism and the resilience of the state. However, critics, particularly among opposition voices and some observers, argued that such commemorative renamings contributed to a politicization of public spaces, potentially embedding a specific of the events into everyday infrastructure and fostering divisions in a polarized society. While the measure received broad support from adherents and coup resisters, dissent emerged from segments skeptical of the government's account, with some viewing the name as emblematic of executive consolidation post-coup rather than neutral historical remembrance. No widespread legal challenges or reversals occurred, and the name persists as of 2025, integrated into official signage and toll systems. The debate reflects broader tensions over interpreting the 2016 events, with empirical accounts confirming heavy casualties at the site but varying attributions of the plot's origins influencing public reception.

Economic and Infrastructural Role

Tolls, Funding, and Financial Impacts

Tolls on the bridge are collected exclusively in the direction from the Asian (Anatolian) side to the side, utilizing 's Hızlı Geçiş Sistemi (HGS), an method involving RFID stickers or transponders affixed to vehicles. As of January 2025, the toll for Class 1 vehicles, such as passenger cars with two s and height under 3.20 meters, stands at 47 , reflecting a 42% increase from 2024 rates attributed to , currency depreciation, and rising maintenance expenses by the General Directorate of Highways (KGM). Higher vehicle classes, including minibuses, buses, and trucks, incur proportionally elevated fees based on count and dimensions, with motorcycles charged at the sixth-class rate. Construction of the bridge, completed in 1973, was primarily financed through state resources managed by the Turkish government via the KGM, with operational costs and subsequently covered by revenues. These revenues form a portion of the broader national funding pool, supporting upkeep and expansion across Turkey's network. In 2016, aggregate collections from bridges and highways nationwide reached 1.2 billion from 417 million vehicle passages, underscoring the scale of income generated, though specific figures for the Bosphorus Bridge alone remain integrated into KGM aggregates. Financially, the bridge's toll system has enabled self-sustaining operations but prompted periodic rate adjustments amid economic pressures, with 2025 hikes exacerbating affordability concerns for commuters reliant on daily crossings. Government considerations of privatizing operating rights for the two Bosphorus bridges and associated highways, revived in September 2025, aim to secure multibillion-dollar upfront payments to alleviate fiscal strains, potentially involving build-operate-transfer models where private entities recoup investments through future tolls. Such plans, however, risk further toll escalations post-privatization, as evidenced in other Turkish BOT projects where operators share excess revenues with the state but adjust fees to ensure profitability. Overall, while tolls have facilitated infrastructural connectivity boosting regional economic activity, they impose recurrent costs on users, with debates centering on balancing revenue needs against public burden in an inflationary context.

Traffic Management and Capacity Issues

The Bosphorus Bridge, featuring three lanes in each direction, faces persistent shortages as daily traffic volumes regularly surpass optimal levels, leading to severe . As of 2025, approximately 190,000 vehicles traverse the bridge each day, reflecting Istanbul's broader vehicular mobility tripling over two decades and exacerbating overload on intercontinental crossings. Volume-to-capacity ratios on the first and second Bosphorus bridges exceed 1.0, confirming operational saturation during peak periods. To address bottlenecks at toll collection points, introduced the Hızlı Geçiş Sistemi (HGS), an RFID-based electronic tolling mechanism, in as an upgrade from the prior OGS system and manual payments. This shift eliminated cash transactions, enabling faster vehicle throughput at plazas and reducing queue-induced delays that previously compounded bridge congestion. HGS requires vehicles to affix a to the for automated deduction, with tolls applied solely in the Europe-to-Asia direction. Despite these measures and the advent of alternatives like the in 2016 and the third Bosphorus bridge in 2016, the original span continues to experience heavy demand, with traffic growth outpacing relief efforts and contributing to Istanbul's status as the world's most congested city in 2024, marked by a 15% rise in delays from the prior year. The existing bridges' combined daily capacity of around 250,000 vehicles falls short of the roughly 600,000 intercontinental crossings, underscoring systemic undercapacity driven by urban expansion and population pressures.

Broader Impacts and Criticisms

Economic Growth and Urban Expansion

The opening of the Bosphorus Bridge on October 30, 1973, marked a pivotal advancement in Istanbul's infrastructure, enabling direct vehicular crossings between the European and Asian continents and substantially reducing transit times that had previously relied on ferry services. This connectivity enhancement accelerated the flow of labor, goods, and commercial traffic, fostering economic integration across the strait and contributing to Turkey's broader socio-economic progress. The bridge's role in alleviating transport bottlenecks is evidenced by a reported 200% increase in vehicle crossings within the first year of operation, signaling immediate demand and economic activation. By bridging the divide, the structure catalyzed urban expansion, particularly on the Asian side, which prior to 1973 featured limited development compared to the European districts. Improved accessibility drew residential settlements, commercial establishments, and industrial activities to areas like Beylerbeyi and , promoting decentralized growth and enabling businesses to relocate to cost-effective zones while maintaining proximity to central markets. This shift supported Istanbul's population surge from 3.5 million in 1973 to over 14 million by 2013, with the bridge directing northward along emerging axes and integrating peripheral regions into the metropolitan economy. The resultant , while boosting property values and local commerce around the bridge approaches, also reflected causal links between infrastructure investment and demographic redistribution, as migrants from increasingly settled on the Asian periphery facilitated by reliable crossings. Toll revenues from the bridge further underscored its financial viability, generating ongoing economic returns that indirectly sustained related infrastructural expansions. Overall, these dynamics positioned the Bosphorus Bridge as an instrumental factor in transforming from a divided historical into a unified modern hub, albeit with patterns of outward growth that challenged subsequent planning efforts.

Environmental and Social Consequences

The construction of the Bosphorus Bridge, completed in 1973, involved minimal direct ecological disruption compared to subsequent infrastructure projects, primarily limited to localized seabed anchoring for its suspension towers and temporary construction-related sediment disturbance in the . However, the bridge enabled rapid vehicular connectivity across the Bosphorus, which indirectly accelerated urban expansion and contributed to the loss of peripheral green spaces and agricultural lands through subsequent unplanned development northward along access routes. This sprawl, observed in land-use changes post-1973, pressured Istanbul's water basins and ecosystems by facilitating illegal settlements and built-up area growth from approximately 100 square kilometers in the to over 1,500 square kilometers by the . Ongoing traffic volumes, exceeding 400,000 vehicles daily by the , have amplified and levels in adjacent districts like and , with emissions from idling and congestion adding to Istanbul's chronic issues, though quantified bridge-specific contributions remain understudied in peer-reviewed analyses. Socially, the bridge transformed daily mobility by supplanting reliance with a fixed crossing, reducing commute times between European and Asian from hours to minutes and fostering intercontinental economic ties, particularly boosting Asian-side districts like through improved access to European job centers. This integration spurred population redistribution, with Asian-side residency rising as drew migrants while European-side employment persisted, altering demographic patterns and enabling the city's metropolitan coalescence. Yet, it also intensified traffic bottlenecks, exacerbating social strains like prolonged commutes—averaging over 90 minutes for many by the —and contributing to spatial via highway-dependent growth that prioritized automotive access over or public transit equity.

Notable Incidents and Maintenance

Key Events and Accidents

During the failed coup attempt on , 2016, a faction of the Turkish military occupied the Bosphorus Bridge (later renamed the 15 July Martyrs Bridge), blocking traffic and firing on civilians and police who gathered to oppose the putschists, resulting in multiple fatalities on the structure itself, including at least shot while confronting soldiers. Overall, the coup led to 249 civilian deaths nationwide, with the bridge serving as a focal point of resistance and violence, prompting its renaming in honor of the martyrs. The bridge has been a site of numerous suicide attempts, primarily by jumping into the Bosphorus below, with a documented high rate; a forensic of cases up to 2000 recorded 65 jumps from the 64-meter-high structure, yielding a 96.9% , often involving severe such as multiple fractures and internal injuries upon impact with water or deck edges. Such incidents continue, including a case where a driver set their vehicle ablaze on the bridge before leaping to their death, halting traffic and requiring firefighting intervention. interventions have occasionally prevented jumps, as in a 2014 two-hour standoff resolved without fatality. Traffic accidents have occasionally disrupted operations, such as a December 20, 2012, multi-vehicle pileup attributed to icy conditions that fully blocked the bridge in both directions. False alarms have also caused closures, including a March 15, 2016, evacuation due to an unattended suspected of containing a , though no device was found. Structural incidents directly on the bridge are rare, though nearby pedestrian overpasses have collapsed under heavy loads, as in a 2014 event killing one and injuring four after a impact.

Ongoing Maintenance and Upgrades

The Bosphorus Bridge undergoes periodic heavy to address wear from over years of service and daily traffic exceeding 200,000 vehicles. A major renovation project replaced the bridge's suspension rope systems and installed seismic isolators between the deck and towers to enhance resistance, given Istanbul's seismic vulnerability. These works, executed by contractor , focused on structural while minimizing disruptions to the vital Asia-Europe link. In 2013, an 18-month initiative replaced 236 inclined hanger cables with vertical ones, reinforced towers with internal plates, and repaired roadway cracks, altering the bridge's for improved load distribution and aesthetics. Subsequent efforts in 2017 targeted upper structure renewal in four phases, including resurfacing and electrical upgrades conducted at night to reduce impacts. applications using specialized membranes have been applied to expedite repairs on the , prioritizing swift execution on one of Europe's busiest crossings. Ongoing monitoring employs dynamic systems for hanger and anchoring components, ensuring early detection of in high-stress elements. Routine inspections address and from heavy loads, with continual oversight incorporating modern sensors for longevity amid Istanbul's urban expansion. These upgrades sustain the bridge's capacity despite capacity constraints, averting potential failures in a high-traffic corridor.

References

  1. [1]
    https://www.g20.org.tr/bosphorus-bridge-turkey/index.html
  2. [2]
    THE BOSPHORUS BRIDGE | History of Istanbul
    Oct 25, 2020 · The Bosphorus Bridge, the first over the Bosphorus, connects Asia and Europe. It opened in 1973, and is 1,560 meters long, 64 meters high.
  3. [3]
    Bosphorus Bridge | | Alluring World
    The Bosphorus Bridge has a total length of 1,560 m (5,118 ft) and a main span of 1,074 m (3,524 ft), which made it one of the longest suspension bridges in the ...
  4. [4]
    Istanbul's Bosphorus Bridge officially renamed | Intertraffic
    Ten days later a grateful government officially renamed the crossing as 15 July Martyrs' Bridge. Quake threat. Threats to this bridge, however, do not come only ...Missing: controversies | Show results with:controversies
  5. [5]
    Turkey keeps renaming places after its July 15 failed coup - WGBH
    Jul 14, 2017 · Or is that the July 15th Martyrs Bridge? That's the new, official name, in honor of those who died resisting last year's attempted coup.Missing: controversies | Show results with:controversies
  6. [6]
    Darius' bridge across the Bosporus - Blogging ancient epigram
    Oct 9, 2020 · When Darius the Great set out to crush the nomadic Scythians he took his great army across the Hellespont on a pontoon bridge built by one Mandrocles.
  7. [7]
    https://www.visitingistanbul.com/bosphorus-bridge-july-15th-martyrs-bridge.html
  8. [8]
    The Battle Over What Istanbul's Iconic Bridge Means
    Aug 2, 2016 · The idea of a Bosphorus Bridge is often attributed to Nuri Demirağ, a wealthy industrialist of the early Turkish Republic. Inspired by the ...<|separator|>
  9. [9]
    About Istanbul, Bosphorus Bridge - Farout Turkey
    Construction of the Bosphorus Bridge began in 1970, under the command of Prime Minister Adnan Menderes who first proposed the idea in 1957.Missing: early | Show results with:early
  10. [10]
    Bosphorus Bridge in Istanbul celebrates 51st Anniversary
    Nov 2, 2024 · Especially after the 16th century, during the Ottoman period, numerous ideas and projects were proposed to connect the two continents, but none ...
  11. [11]
    Bosphorus Bridge | B2 - Bill Brown's Bridges
    Key Facts. 15 July Martyrs' Bridge (official name). Catalyst for the growth of Istanbul. World's fourth longest bridge at the time · Location. Istanbul, Turkey.
  12. [12]
    Exploring the Iconic Bosphorus Bridge History - Binaa Investment
    Feb 3, 2025 · The Bosphorus Bridge, completed in 1973, connects Europe and Asia. It was renamed in 2016 and is a symbol of Turkey's modernization.
  13. [13]
    Projet 05 | Bosphorus Strait Trans-strait Railway Construction Project
    1)The submerged tunnel was constructed at a water depth of 60m, which was the deepest construction in the world. 2)The implementation of the submerged tunnel ...
  14. [14]
    Seismic assessment of bridges through structural health monitoring
    The present work offers a comprehensive overview of methods related to condition assessment of bridges through Structural Health Monitoring (SHM) procedures.Missing: difficulties | Show results with:difficulties
  15. [15]
    Analytical dynamic studies of the First Bosphorus Bridge - Lusas
    A joint team from Bogazici and Middle Eastern Universities in Turkey carried out monitoring and analytical studies on the First Bosphorus Bridge using LUSAS.
  16. [16]
    Bosporus Bridge (Istanbul, 1973) - Structurae
    Bosporus Bridge is a suspension bridge with diagonal hangers, motorway bridge / freeway bridge, single-span two-tower suspension bridge and steel bridge ...Missing: facts | Show results with:facts
  17. [17]
    Investigation of the structural behaviors of Bosphorus suspension ...
    Feb 15, 2023 · The first suspension bridge samples were constructed in China and India using machined iron chains in the 1600 s [35]. Invention of steel in ...<|control11|><|separator|>
  18. [18]
    Bosphorus Bridges: Connecting Europe and Asia
    The 15th July Martyrs' Bridge – originally called the Bosphorus Bridge – has a deck width of 33.4m and a main span of over 1km. When it opened, it was the ...
  19. [19]
    Long-Span Orthotropic Steel Deck Bridges of Turkey - IOPscience
    This study presents the general features of the long-span orthotropic steel deck bridges in Turkey, namely The July 15 (the 1 st Bosphorus) Martyrs Bridge.
  20. [20]
    Bosphorus Bridge-July 15th Martyrs Bridge - Visiting İstanbul |
    It is a gravity-anchored suspension bridge with steel towers and inclined hangers. The aerodynamic deck hangs on zigzag steel cables. It is 1,560 m (5,118 ft) ...
  21. [21]
    15 Temmuz Şehitler Köprüsü - Üsküdar Belediyesi
    Jul 15, 2025 · 20 Şubat 1970 tarihinde yapımına başlanan köprü, 30 Ekim 1973 tarihinde saat 12.00'de, Türkiye Cumhuriyeti'nin kuruluşunun 50. yıldönümü ...Missing: açılış ilk operasyonlar
  22. [22]
    Boğaziçi Köprüsü'nden ilk geçiş 12.76 TL'ydi - Hürriyet
    Jun 1, 2018 · 1973'te İstanbul'un iki yakasını bağlayan Boğaziçi Köprüsü hizmete açıldığında alınan geçiş ücreti 10 TL imiş. Bu bedeli aradan geçen ...
  23. [23]
    BOSPORUS BRIDGE NEAR COMPLETION - The New York Times
    Mar 25, 1973 · Operated on a toll system, the bridge is expedted to return at least 35 per cent of the investment in it during the first year of operation ...
  24. [24]
    https://dijitalhaber.com.tr/gundem/bogazici-koprusu-49-yasinda-8224
  25. [25]
    First Bosphorus bridge commemorates 51st anniversary
    Nov 1, 2024 · Inaugurated 51 years ago as the first Bosphorus bridge to unite the Asian and European sides of Istanbul, the July 15 Martyrs' Bridge has been a vital ...
  26. [26]
    Bosphorus Bridge, Ankara's main square to be renamed after July 15
    Jul 27, 2016 · Regarding the Bosphorus Bridge, Yıldırım said the government had opted to rename the bridge as it was the “first target of the coup plotters” on ...Missing: Temmuz Şehitler Köprüsü controversy
  27. [27]
    Turkey coup: Soldiers on trial for bridge deaths - BBC
    Oct 9, 2017 · The indictment says 34 civilians and seven coup plotters died in the clash on the bridge over the Bosphorus before the troops surrendered to ...
  28. [28]
    Turkey renames Bosphorus Bridge to '15th July Martyrs' Bridge
    Jul 26, 2016 · Istanbul's Bosphorus Bridge will be renamed 'July 15th Martyrs' Bridge' in honor of civilians who died resisting the coup attempt.Missing: history debates<|separator|>
  29. [29]
    July 15: Türkiye's most brutal coup attempt | Opinion - Daily Sabah
    Jul 15, 2025 · The Bosporus Bridge went down in history as the place where the first martyrs fell in the fight against FETÖ on July 15. F-16 fighter jets ...
  30. [30]
    What was Turkey's failed coup about – and what's happened since?
    Jul 15, 2022 · Turkey witnessed the bloodiest coup attempt in its modern history on July 15, 2016, when a faction of the Turkish military launched a coordinated attempt to ...
  31. [31]
    Bosphorus and Second Bosphorus Bridge Tolls
    VEHICLE CLASS, VEHICLE TYPE, ​ ​TOLLS ​. ​. 1, TWO AXLE VEHICLES WHOSE AXLE SPACE IS SMALLER THAN 3.20m, 33,00. 2, INCLUDING EVERY KIND OF 2 AXLE VEHICLES ...Missing: day | Show results with:day
  32. [32]
    Turkey Implements Major Toll Hike on Highways and Bridges in 2025
    Jan 13, 2025 · Among the new toll rates, the Bosphorus bridges, the "July 15 Martyrs" and "Fatih Sultan Mehmet," will charge a fee of 47 Turkish liras each.Missing: 2024 | Show results with:2024<|separator|>
  33. [33]
    Turkish infrastructure profiting the economy - Politics Today
    In 2016, 417 million vehicles used Turkey's toll bridges and roads, paying a total of 1.2 billion liras ($318.81 million). On the Istanbul Strait, the bridge ...Missing: revenue impacts
  34. [34]
    Turkey Said to Weigh Multibillion-Dollar Deal for Iconic Bridges
    Sep 8, 2025 · Turkey revived a multibillion-dollar plan to sell the operating rights to two iconic Istanbul bridges and a series of highways, ...
  35. [35]
    The privatization of roads: An overview of the Turkish case
    Aug 6, 2025 · ... toll revenue coming from the vehicle traffic above the guaranteed level will. be shared by the BOT company and the state with a ratio of 70 ...Missing: Boğaziçi | Show results with:Boğaziçi
  36. [36]
    Turkey Raises Toll Fees by 42% Amid Economic Pressures
    Jan 14, 2025 · The General Directorate of Highways attributes the hike to high inflation, currency fluctuations, and increased maintenance costs for the ...
  37. [37]
    Vehicle mobility in Türkiye triples over two decades - Latest News
    Jul 20, 2025 · ... July 15 Martyrs Bridge, with 190,000 vehicles per day, according to the minister. ... daily traffic average of 100,000 vehicles, while parts ...
  38. [38]
    [PDF] Chapter 3 Road Network and Traffic Volume
    On the 1st and 2nd Bosporus Bridges, the volume-capacity ratio is over 1.0. ... The east-bound traffic on the 2nd Bosporus Bridge is one of the few samples.Missing: Bosphorus | Show results with:Bosphorus
  39. [39]
    Upgrading Turkey's tolling system | ITS International
    Apr 25, 2013 · The new 'Fast Passing System' (HGS) is an upgrade of Turkey's existing Automatic Passing System (OGS) technology, which uses active RFID boxes ...<|separator|>
  40. [40]
    Turkish Toll Highways & Bridges: HGS Toll System
    Nov 30, 2024 · Turkish toll highways & bridges: you MUST use an HGS (High-Speed Toll) system transponder! Here's how to get one, by Tom Brosnahan.
  41. [41]
    Istanbul named world's most congested city for 2024 | CiTTi Magazine
    Jan 6, 2025 · The report shows a 15% increase in delays for the Turkish metropolis compared to 2023, highlighting the growing strain on its road networks as ...Missing: Bosphorus statistics
  42. [42]
    [PDF] THE THIRD BOSPHORUS BRIDGE AND THE NORTHERN ... - IIETA
    Consequently, while the daily capacity of the existing bridges is 250,000, approximately 600,000 vehicles cross the bridges connecting the two continents.
  43. [43]
    Plan for new Bosphorus bridge sparks row over future of Istanbul
    Jun 8, 2012 · According to a report published by the chamber, the number of cars crossing the Bosphorus increased by 200% only one year after the first bridge ...
  44. [44]
    A case study of the Istanbul third bridge - ScienceDirect.com
    The population has risen dramatically from 3.5 million in 1973 to over 14 million (14,160,467) in 2013, while private car ownership has simultaneously increased ...
  45. [45]
    The determining of the Bosphorus bridges effects on urban growth ...
    In a short time after the building of two bridges, each bridge created its own traffic and triggered urbanization to northward in Istanbul. The main purpose of ...
  46. [46]
    [PDF] Urban Mobility in Istanbul - Plan-bleu
    appeared in 1967 and the first Bosphorus Bridge in opened in 1974. The first impact of the Bosphorus Bridge was on the distribution of the population ...
  47. [47]
    [PDF] İSTANBUL BOĞAZI'NDAKİ KÖPRÜLERİN ETKİLERİ ÜZERİNE
    Ortaya. Page 4. 192 çıkan plansız ve denetimsiz kentsel gelişme sonucunda, kent çevresindeki yeşil alanlar tahrip edildiğinden ve su havzaları kaçak ...Missing: çevresel | Show results with:çevresel
  48. [48]
    Historical analysis of economic, social and environmental impacts of ...
    Oct 7, 2013 · Unplanned land- use developments were one inevitable and undesirable spatial impact of the Second Bridge: the built-up area gradually devel- ... A ...<|separator|>
  49. [49]
    [PDF] Changing Urban Pattern Of Istanbul; From Monocentric ... - EconStor
    Bosphorus Bridge (1973), made accessibility easier between Asian and European Sides, meanwhile it helped to the development of Kad• köy, the main center of ...<|separator|>
  50. [50]
    [PDF] ANAPPLICATIoNoFTEEANALYTI...
    Car ownership is on an increase; the first Bosphorus bridge has already ... The environmental impact produced by each mode of transportation vary in ...<|separator|>
  51. [51]
    The night Türkiye stood: Turkish women who defied coup with blood ...
    Jul 15, 2025 · On the Bosphorus Bridge, now renamed the July 15 Martyrs' Bridge, two women, Ayse Aykac (44) and Sevgi Yesilyurt (51), were killed. Aykac, a ...<|control11|><|separator|>
  52. [52]
    A Year Later, A Divided Turkey Remembers Failed Coup Attempt
    Jul 16, 2017 · A year after the failed coup, President Erdogan honored the civilians who died resisting the effort to overthrow his government.
  53. [53]
    Suicides by jumping from Bosphorus Bridge in Istanbul - PubMed
    65 people had jumped from the Bosphorus Bridge of Istanbul. The mortality rate was 96.9%, as two individuals survived their suicide attempt.Missing: collisions | Show results with:collisions
  54. [54]
    Driver jumps off Istanbul bridge into Bosporus waters after setting ...
    May 21, 2019 · A vehicle burnt to a crisp on The July 15 Martyrs Bridge in Istanbul on Tuesday, with its driver committing suicide by jumping off the bridge into the waters ...Missing: collisions | Show results with:collisions
  55. [55]
    Man prevented from committing suicide at Bosphorus Bridge
    Jul 11, 2014 · Police in Istanbul have prevented a man from committing suicide at the Bosphorus Bridge in the morning hours of July 11 after two long hours ...
  56. [56]
    Traffic on bridge over Bosphorus Strait in Turkey blocked due to ...
    Dec 20, 2012 · The traffic on the bridge between Europe and Asia was blocked in both directions. The cause of the accident was allegedly ice-covered ground.
  57. [57]
    Istanbul's Bosphorus Bridge closed over false bomb scare
    Mar 15, 2016 · An unattended vehicle on Istanbul's busy Bosporus Bridge on Tuesday afternoon renewed fears of a car bomb attack in Turkey's most populated ...
  58. [58]
    Istanbul bridge collapse kills one - BBC News
    One person has been killed and four people injured when a pedestrian overpass collapsed in Istanbul, Turkey. The incident happened after a dumper truck ...
  59. [59]
    Major Renovation and Structural Reinforcement of Boğaziçi and ...
    Heavy maintenance was conducted for the Bosphorus bridge that was commissioned in 1973 and its rope systems were replaced. Isolators were placed between the ...
  60. [60]
    Boğaziçi ve Fatih Sultan Mehmet Köprülerinin Büyük Onarımı ve ...
    1973 yılında hizmete giren Boğaziçi Köprüsü'nün ağır bakımları yapılarak halat sistemleri değiştirilmiştir. Tabliye ile kuleler arasına izolatörler, köprünün ...Missing: bakım | Show results with:bakım
  61. [61]
    Köprünün Dengesi Bozuldu - Arkitera
    Dec 24, 2013 · Boğaziçi Köprüsü'nde 18 ay sürecek çalışmalar kapsamında 236 adet askı halatı değişimi, kulelerin içten çelik levhalar ile güçlendirilmesi, ...
  62. [62]
    Boğaziçi Köprüsü bakıma giriyor - Birgün Gazetesi
    Jun 8, 2017 · Köprünün bakım onarım çalışmalarının 12 Haziran'da başlayacağını anlatan Arslan, üst yapı yenileme işinin 4 aşamada gerçekleşeceğini kaydetti.
  63. [63]
    Waterproofing Bosphorus & Halic Bridges | GCP Applied Technologies
    Europe's busiest bridges seek swift repair solution · Speed is essential to bridge refurbishment · ELIMINATOR® waterproofing minimises traffic disruption.
  64. [64]
    First Bosphorus Bridge - Akron s.r.l
    For the replacement of hangers and anchoring systems, a dynamic monitoring system has been provided for both anchoring systems and hangers. Akron has taken ...